Patient transport apparatus with steer lock assembly

What is claimed is: 1. A steer lock system for a patient transport apparatus, the steer lock system comprising: a support structure; a caster assembly coupled to the support structure to facilitate movement of the patient transport apparatus along a floor surface, the caster assembly including: a wheel, a wheel support coupled to the wheel to support the wheel for rotation about a rotational axis and for rotation about a swivel axis, and a steer lock assembly movable relative to the wheel support and including a plunger arranged to receive applied force, a locking element coupled to the plunger and movable relative to the plunger, and a locking receiver; and an actuator operatively coupled to the steer lock assembly to apply the force to the plunger to move the steer lock assembly between: a steer locked state to limit rotation of the wheel support about the swivel axis with the locking element disposed in engagement with the locking receiver in response to force applied to the plunger, and a non-steer locked state to permit the wheel support to swivel about the swivel axis with locking element disposed out of engagement with the locking receiver in response to removal of the force applied to the plunger; wherein the actuator comprises a foot pedal mounted to the support structure and rotatable relative to the support structure in a first rotational direction or a second rotational direction opposite the first rotational direction, the foot pedal comprising a steer lock engaging region that is configured to engage the steer lock assembly in the steer locked state, with the steer lock engaging region disengaged from the steer lock assembly in the non-steer locked state. 2. The steer lock system of claim 1 , wherein the actuator is configured to move the steer lock assembly to the steer locked state from the non-steer locked state by applying the force on the plunger. 3. The steer lock system of claim 1 , wherein the locking element is further defined as a steer lock pin coupled to the plunger and movable relative to the plunger. 4. The steer lock system of claim 3 , wherein the locking receiver defines an opening to receive the steer lock pin when the actuator applies the force on the plunger and when the opening is axially aligned with the steer lock pin. 5. The steer lock system of claim 4 , further including a first biasing device to bias the steer lock pin toward the opening in response to the force applied to the plunger, and a second biasing device to withdraw the steer lock pin from the opening in response to removal of the force applied to the plunger. 6. The steer lock system of claim 5 , wherein the first biasing device is positioned between the plunger and the locking element, and the second biasing device is positioned between the plunger and the support structure. 7. The steer lock system of claim 5 , wherein the actuator is operable to compress the first biasing device between the plunger and the steer lock pin when the opening is misaligned with the steer lock pin such that a biasing force continuously biases the steer lock pin against an upper surface of the locking receiver until the opening is axially aligned with the steer lock pin. 8. The steer lock system of claim 5 , wherein the steer lock pin includes a stepped region having an upper step surface; and wherein the plunger includes a lower portion having a lower portion surface, with the second biasing device positioned between the lower portion surface and the support structure. 9. The steer lock system of claim 8 , wherein the plunger includes an upper portion having a terminal end surface arranged for engagement by the actuator. 10. The steer lock system of claim 9 , wherein the plunger includes a ledge portion between the lower portion and the upper portion and extending transverse to the lower portion and upper portion. 11. The steer lock system of claim 10 , wherein the ledge portion includes: an outer ledge portion, and an inner ledge portion having an upper interior ledge surface and an opposing lower interior ledge surface, with the first biasing device being positioned between the lower interior ledge surface and the upper step surface. 12. The steer lock system of claim 1 , wherein the caster assembly further comprises a brake assembly coupled to the wheel, with the actuator operatively coupled to the brake assembly to move the brake assembly between a braked state and an unbraked state, with the unbraked state permitting the wheel to rotate about the rotational axis to facilitate movement of the support structure along the floor surface, and with the braked state preventing the wheel from rotating about the rotational axis. 13. The steer lock system of claim 12 , wherein the brake assembly comprises a brake pad configured to engage the wheel when the brake assembly is in the braked state and disengage from the wheel when the brake assembly is in the unbraked state. 14. The steer lock system of claim 1 , further including a first biasing device to bias the locking element toward the locking receiver in response to the force applied to the plunger. 15. The steer lock system of claim 14 , further including a second biasing device to withdraw the locking element from the locking receiver in response to removal of the force applied to the plunger. 16. The steer lock system of claim 15 , wherein the first biasing device is positioned between the plunger and the locking element. 17. The steer lock system of claim 16 , wherein the second biasing device is positioned between the plunger and the support structure. 18. A steer lock system for a patient transport apparatus, the steer lock system comprising: a support structure; a caster assembly coupled to the support structure to facilitate movement of the patient transport apparatus along a floor surface, the caster assembly including: a wheel, a wheel support coupled to the wheel to support the wheel for rotation about a rotational axis and for rotation about a swivel axis, and a steer lock assembly movable relative to the wheel support and including a plunger arranged to receive applied force, a steer lock pin coupled to the plunger and movable relative to the plunger, and a locking receiver; and an actuator operatively coupled to the steer lock assembly to apply the force to the plunger to move the steer lock assembly between: a steer locked state to limit rotation of the wheel support about the swivel axis with the steer lock pin disposed in engagement with the locking receiver in response to force applied to the plunger, and a non-steer locked state to permit the wheel support to swivel about the swivel axis with the steer lock pin disposed out of engagement with the locking receiver in response to removal of the force applied to the plunger; wherein the locking receiver defines an opening to receive the steer lock pin when the actuator applies the force on the plunger and when the opening is axially aligned with the steer lock pin.