| 摘要 |
A variable support mechanism includes a plurality of pneumatic bladders and an electronic control system for controlling the inflation and deflation thereof. Each of the bladders communicates through a valve with a common manifold. The operations of the valves are individually controlled by a microprocessor. A pressure sensor communicates with the manifold and generates electrical signals that are representative of the magnitude of the fluid pressure in the manifold to the microprocessor. The microprocessor is also connected to a vent valve that provides selective fluid communication between the manifold and the atmosphere. The microprocessor is further connected to a pressure valve that provides selective fluid communication between the manifold and a pump. Initially, the magnitude of the pressure in each of the bladders is sampled, measured, and stored by the electronic control system. Then, the measured pressure readings from the bladders are compared with respective target values and, in response to that comparison, are designated as being either (1) Too Low, (2) Too High, or (3) Within Limits. The bladders that have been identified as being Too Low are inflated until they have achieved their respective target values, and the bladders that have been identified as being Too High are deflated until they have achieved their respective target values, Lastly, the electronic control system is placed an inactive mode, wherein no action occurs for a predetermined length of time. A user attention feature is periodically performed to generate a tactile indication to the user that the electronic control system is active and functioning. Then, the algorithm branches back to the first routine discussed above, wherein this cycle is repeated.
|
