Patient transport apparatus for transporting a patient over disturbances in floor surfaces

What is claimed is: 1. A patient transport apparatus for transporting a patient over disturbances in floor surfaces, said transport apparatus comprising: a support structure comprising a patient support surface to support the patient; wheels coupled to said support structure; an operator interface coupled to said support structure to enable an operator to transport the patient over the floor surfaces; a suspension system operable in a first mode and a second mode, said suspension system being configured in at least one of said modes to absorb energy as said wheels move over the disturbances in the floor surfaces during transport to limit energy transfer to said patient support surface thereby limiting discomfort to the patient; and a control system to place said suspension system in one of said modes, wherein said first mode is an energy-absorbing mode in which said suspension system absorbs energy as said wheels move over the disturbances in the floor surfaces during transport and said second mode is a lockout mode in which said suspension system is relatively more rigid as compared to said energy-absorbing mode, and wherein said control system comprises a status input to determine at least one of an operational state of said transport apparatus or a patient state and a controller to place said suspension system in said energy-absorbing mode or said lockout mode based on said at least one of said operational state or said patient state. 2. The transport apparatus of claim 1 wherein said status input is a motion sensor in communication with said controller to determine whether said transport apparatus is in motion or is stationary, said controller configured to place said suspension system in said lockout mode when said transport apparatus is stationary and to place said suspension system in said energy-absorbing mode when said transport apparatus is in motion. 3. The transport apparatus of claim 1 wherein said status input comprises at least one load cell in communication with said controller to determine if the patient is positioned for ingress or egress relative to said patient support surface, said controller configured to place said suspension system in said lockout mode when the patient is positioned for ingress or egress relative to said patient support surface. 4. The transport apparatus of claim 1 wherein said status input comprises a CPR sensor in communication with said controller to determine if said transport apparatus is in a CPR mode, said controller configured to place said suspension system in said lockout mode when said CPR sensor detects said CPR mode. 5. A patient transport apparatus for transporting a patient over disturbances in floor surfaces, said transport apparatus comprising: a support structure comprising a patient support surface to support the patient; wheels coupled to said support structure; an operator interface coupled to said support structure to enable an operator to transport the patient over the floor surfaces; a suspension system operable in a first mode and a second mode, said suspension system being configured in at least one of said modes to absorb energy as said wheels move over the disturbances in the floor surfaces during transport to limit energy transfer to said patient support surface thereby limiting discomfort to the patient; and a control system to place said suspension system in one of said modes, wherein said first mode is an energy-absorbing mode in which said suspension system absorbs energy as said wheels move over the disturbances in the floor surfaces during transport and said second mode is a lockout mode in which said suspension system is relatively more rigid as compared to said energy-absorbing mode, and wherein said suspension system is selectively operable at a first ride setting or a second ride setting in said energy-absorbing mode, said first ride setting being different than said second ride setting. 6. The transport apparatus of claim 5 wherein said control system comprises at least one load cell to generate output associated with a load of the patient on said patient support surface and a controller in communication with said at least one load cell to receive said output and transmit a control signal to said suspension system to switch said suspension system from said first ride setting to said second ride setting based on said output. 7. The transport apparatus of claim 6 wherein said controller is configured to process said output to determine a sprung weight supported by said suspension system, said sprung weight comprising a weight of the patient. 8. The transport apparatus of claim 6 wherein said suspension system comprises suspension devices, said suspension system configured to independently adjust said suspension devices based on said output. 9. The transport apparatus of claim 6 wherein said suspension system comprises a spring having an adjustable spring parameter. 10. The transport apparatus of claim 9 wherein said suspension system comprises a damper having an adjustable damping parameter, said suspension system configured to adjust at least one of said adjustable spring parameter or said adjustable damping parameter in response to receiving said control signal from said controller. 11. The transport apparatus of claim 10 wherein said controller comprises memory to store spring and damper settings corresponding to said output and said suspension system is configured to adjust said at least one of said adjustable spring parameter or said adjustable damping parameter based on said spring and damper settings. 12. The transport apparatus of claim 5 wherein said control system comprises a surface sensor to detect the disturbances in the floor surfaces and generate corresponding output and a controller in communication with said surface sensor to receive said output and transmit a control signal to said suspension system to switch said suspension system from said first ride setting to said second ride setting based on said output. 13. The transport apparatus of claim 5 wherein said control system comprises a controller and a ride selection interface in communication with said controller to enable selection of said first ride setting or said second ride setting, said controller configured to switch said suspension system to said first ride setting or said second ride setting based on said selection. 14. The transport apparatus of claim 5 wherein said control system comprises a manual control device configured to be manually manipulated by the operator to place said suspension system in one of said modes. 15. The transport apparatus of claim 5 wherein said operator interface comprises a handle coupled to said support structure. 16. The transport apparatus of claim 5 wherein said suspension system comprises a suspension device. 17. A patient transport apparatus for transporting a patient over disturbances in floor surfaces, said transport apparatus comprising: a support structure comprising a patient support surface to support the patient; wheels coupled to said support structure; an operator interface coupled to said support structure to enable an operator to transport the patient over the floor surfaces; a suspension system operable in a first mode and a second mode said, suspension system being configured in at least one of said modes to absorb energy as said wheels move over the disturbances in the floor surfaces during transport to limit energy transfer to said patient support surface thereby limiting discomfort to the patient, said suspension system comprising a suspension device