Patient handling apparatus with hydraulic control system

We claim: 1. A patient handling apparatus comprising: a frame; a base; a lift assembly supporting said frame relative to said base, said lift assembly configured to extend or contract to raise or lower said base or said frame with respect to the other of said base and said frame; and a control system comprising: at least one hydraulic cylinder to extend or contract said lift assembly, said hydraulic cylinder having a rod, a cap end chamber, and a rod end chamber, and said rod having an extension speed; a hydraulic circuit to direct the flow of hydraulic fluid to and from said hydraulic cylinder, said hydraulic circuit including a cap side hydraulic conduit, a rod side hydraulic conduit, and a pump, said cap side hydraulic conduit in fluid communication with said pump, and said rod side hydraulic conduit in fluid communication with said pump, and said pump configured to pump fluid to and from said cap end chamber of said cylinder through said cap side hydraulic conduit and to pump fluid to and from said rod end chamber of said cylinder through said rod side hydraulic conduit, and said hydraulic circuit further including a third conduit in fluid communication with said rod side hydraulic conduit and said cap side hydraulic conduit allowing fluid communication between said rod end chamber and said cap end chamber without the fluid passing through said pump; and a controller operable to control said pump and said hydraulic circuit, and based on an input signal indicative of a status or condition of the patient handling apparatus, when said rod is extending said controller configured to open fluid communication between said rod end chamber and said cap end chamber through said third conduit to redirect a portion of the fluid output from said rod end chamber to said cap end chamber by by-passing the pump to thereby increase said extension speed of said rod. 2. The patient handling apparatus according to claim 1 , wherein said control system includes a sensor, said sensor generating said input signal. 3. The patient handling apparatus according to claim 2 , wherein said sensor is configured to detect the presence or absence of an external force being applied to said base, and said input signal being generated when said control system detects the absence of an external force being applied to said base. 4. The patient handling apparatus according to claim 1 , wherein said controller is configured to close fluid communication between said rod end chamber and said cap end chamber through said third conduit when said rod is retracting or when an external force is applied to said base. 5. The patient handling apparatus according to claim 1 , wherein said hydraulic circuit includes a valve to control said fluid communication between said rod end chamber and said cap end chamber, and said controller configured to adjust said valve. 6. The patient handling apparatus according to claim 5 , wherein said valve comprises a solenoid valve, and said controller in communication with said solenoid valve to control opening or closing of said solenoid valve. 7. The patient handling apparatus according to claim 5 , wherein said control system includes a sensor configured to detect the absence or presence of an external force applied to said base, and said controller being configured to open said valve in the absence of an external force applied to said base. 8. The patient handling apparatus according to claim 7 , wherein said controller is configured to close said valve in the presence of an external force applied to said base and/or slow or stop the flow of fluid to the hydraulic cylinder. 9. The patient handling apparatus according to claim 7 , wherein said control system further includes a patient handling apparatus-based communication system for communicating with a loading and unloading apparatus-based communication system on a loading and unloading apparatus. 10. The patient handling apparatus according to claim 9 , wherein said apparatus-based communication systems are wireless. 11. The patient handling apparatus according to claim 9 , wherein said controller is operable to open or close said solenoid valve based on a signal received from the loading and unloading apparatus-based communication system. 12. The patient handling apparatus according to claim 1 , further comprising a motor to run said pump, wherein said control system is configured to detect a load on said motor, and said input signal being a function of said load on said motor, and said control system being configured to (1) close fluid communication between said rod end chamber and said cap end chamber through said third hydraulic conduit and/or (2) stop or slow the motor to thereby stop or slow fluid flow to the hydraulic cylinder from said pump when said load on said motor is near, is at, or exceeds a prescribed value. 13. The patient handling apparatus according to claim 1 , wherein said control system is configured to detect the location of said frame relative to said base, and said controller being configured to (1) close fluid communication between said rod end chamber and said cap end chamber through said third hydraulic conduit and/or (2) slow or stop the flow of fluid to said hydraulic cylinder when said base is near or is at a prescribed location relative to said frame. 14. The patient handling apparatus according to claim 1 , wherein said control system is configured to detect when said lift assembly is in a prescribed configuration, and said controller further configured to close the fluid communication between said rod end chamber and said cap end chamber when said lift assembly is in the prescribed configuration-. 15. A method of unloading the patient handling apparatus of claim 1 from a cargo area of an emergency vehicle, the method comprising: moving the patient handling apparatus adjacent an opening to the cargo area of an ambulance; extending the base of the patient handling apparatus beyond the cargo area wherein the base is no longer supported by the emergency vehicle; directing hydraulic fluid from the pump to the cap end of the hydraulic cylinder to extend the rod; and automatically redirecting a portion of the hydraulic fluid discharged from the rod end chamber of the hydraulic cylinder to the cap end chamber of the hydraulic cylinder by by-passing the pump to increase the speed of the rod. 16. The method according to claim 15 , further comprising stopping or slowing the flow of fluid to the hydraulic cylinder and/or terminating said redirecting when an external force is applied to the base. 17. The method according to claim 15 , further comprising detecting when the base is supported by or contacts a ground surface, and further comprising stopping or slowing the flow of fluid to the hydraulic cylinder and/or terminating said redirecting when detecting that the base is supported by or contacts a ground surface. 18. The method according to claim 15 , further comprising stopping or slowing the flow of fluid to the hydraulic cylinder and/or terminating said redirecting when the base is near or at a prescribed location relative to the frame. 19. The method according to claim 18 , further comprising sensing when the base is near or at a prescribed location relative to the frame. 20. The method according to claim 15 , further comprising further comprising stopping or slowing the flow of fluid to the hydraulic cylinder and/or terminating said redirecting based on the lift assembly being near or in a prescribed configuration. 21. A method