Automated chest compression device

We claim: 1. A device for compressing a chest of a patient comprising: a platform for placement under a thorax of the patient; a compression belt adapted to extend over an anterior chest wall of the patient; a motor operably connected to the compression belt through a drive train, said motor capable of operating the drive train repeatedly to cause the compression belt to tighten about the thorax of the patient and loosen about the thorax of the patient; and a control system configured to control operation of the motor to tighten the compression belt to a tightened position and to loosen the compression belt from the tightened position to a slack take-up position in repeated cycles of compression about the thorax of the patient, wherein said control system is further configured to pre-tension the compression belt, prior to performing the repeated cycles of compression, by operating the motor to loosen the compression belt, and then operating the motor to tighten the compression belt until the compression belt is tightened to the slack take-up position. 2. The device of claim 1 wherein: the drive train comprises a right drive spool and a left drive spool and a linkage operably connecting the motor to said right drive spool and left drive spool. 3. The device of claim 2 , wherein the linkage comprises a drive belt operably connecting the motor to the right drive spool and a drive belt operably connecting the motor to the left drive spool. 4. The device of claim 2 , wherein the linkage comprises a drive chain operably connecting the motor to the right drive spool and a drive chain operably connecting the motor to the left drive spool. 5. The device of claim 2 , wherein the drive train comprises: a first drive shaft connected to the motor; a first drive belt, drive chain or rack connecting the first drive shaft to one of the left and right drive spools; and a second drive belt, drive chain or rack connecting the first drive shaft to the other of the left and right drive spools. 6. The device of claim 1 wherein: the compression belt comprises a right compression belt end and a left compression belt end; the drive train comprises a right drive spool and a left drive spool, said right drive spool and left drive spool disposed laterally in the platform, and a linkage operably connecting the motor to said right drive spool and left drive spool; and the right compression belt end and the left compression belt end are releasably attachable to the right drive spool and left drive spool, respectively, at attachment points accessible from anterior or lateral sides of the platform, such that the right compression belt end and left compression belt end may be attached to the right drive spool and the left drive spool while the platform is disposed under the patient. 7. The device of claim 6 , wherein: the drive train comprises right and left intermediate straps fixed to the right and left drive spools; and the right compression belt end and the left compression belt end comprise releasable attachment means for releasably attaching the right compression belt end and the left compression belt end to the right and left intermediate straps, respectively. 8. The device of claim 7 , wherein the right and left intermediate straps are self-supporting yet flexible that they may be spooled on the right and left drive spools. 9. The device of claim 1 , further comprising: right and left splines disposed on the right compression belt end and the left compression belt end, respectively; and slots in the right and left drive spools for receiving the right and left splines to releasably attach the right compression belt end and the left compression belt end to the right and left drive spools, respectively. 10. The device of claim 1 , wherein: the control system is further configured to, prior to loosening the compression belt to the slack take-up position, initially tighten the compression belt while detecting a load on the compression belt, wherein loosening the compression belt to the slack take-up position comprises loosening the compression belt after detecting the load as being in excess of a predetermined threshold. 11. The device of claim 10 , wherein: the control system is further configured to upon detecting the load as being below the predetermined threshold, skip loosening the compression belt to the slack take-up position, and continue to tighten the compression belt to the slack take-up position. 12. The device of claim 1 , wherein pre-tensioning the compression belt comprises associating a belt position resulting from tightening the compression belt with the slack take-up position. 13. The device of claim 12 , wherein loosening the compression belt to the slack take-up position in the repeated cycles of compression comprises loosening the compression belt until detecting the compression belt is at the slack take-up position. 14. A device for compressing a chest of a patient comprising: a platform for placement under a thorax of the patient; a compression belt adapted to extend over an anterior chest wall of the patient; a motor operably connected to the compression belt; and a control system for controlling operation of the motor to repeatedly tighten and loosen the compression belt about the thorax of the patient, the control system being configured to a) perform a pre-tensioning routine to pre-tension the compression belt to a slack take-up position, the pre-tensioning routine comprising i) operating the motor to tighten the compression belt while monitoring an indicator of tightness on the compression belt, ii) determining if the indicator is greater than a predetermined threshold, wherein, if the indicator is greater than the predetermined threshold, the control system is configured to operate the motor to loosen the compression belt, and iii) after step ii), operating the motor to tighten the compression belt until the compression belt is tightened to the slack take-up position, and b) after performing the pre-tensioning routine, operating the motor to perform repeated cycles of compression comprising tightening the compression belt to a tightened position and loosening the compression belt from the tightened position to the slack take-up position. 15. The device of claim 14 , wherein the motor is operably connected to the compression belt through a drive train. 16. The device of claim 14 , further comprising a load sensor, wherein monitoring the indicator comprises detecting a load on the compression belt using the load sensor.