Robotic painting booth and operating method

What is claimed is: 1. A coating system for performing a coating process on a part conveyed through a painting cabin, said coating system comprising: two or more painting robots each with at least five rotational axes, each of the painting robots having a robot base rotatable about a mounting stand, an inner arm rotatable about the robot base, an outer arm rotatable about the inner arm, a robot wrist attached to a free end of the outer arm, and a coating applicator coupled to the robot wrist; and an airlock booth positioned proximal to the mounting stand of at least one of the painting robots, said airlock booth having a first door opening to an operator aisle and a second door opening to the painting cabin, where the airlock booth is configured such that certain components of the one of the painting robots are accessible by an operator in the airlock booth when the robot one of the painting robots is parked in a service position and the second door is open, where other painting robots in the painting cabin continue painting while the operator in the airlock booth services the one of the painting robots, and where paint vapors from the painting cabin are prevented from entering the operator aisle, and wherein a safe zone is defined within the painting cabin, where the safe zone is a space adjacent the airlock booth within which the operator is allowed to reach in order to service the one of the painting robots, and the service position of the one of the painting robots locates the certain components within the safe zone, and adjacent painting robots are prevented from entering the safe zone by envelope restriction software running on controllers of the adjacent painting robots. 2. The coating system according to claim 1 wherein the airlock booth operates in a sequence including: permitting the operator to enter the airlock booth from the operator aisle through the first door; permitting the operator to open the second door to access the robot one of the painting robots in the painting cabin; servicing the certain components of the one of the painting robots by the operator in the airlock booth; permitting the operator to close the second door after completing servicing; and permitting the operator to exit the airlock booth to the operator aisle through the first door. 3. The coating system according to claim 1 further comprising a breathing apparatus, where the breathing apparatus is an umbilical breathing device incorporated into the airlock booth and is donned by the operator prior to opening the second door. 4. The coating system according to claim 1 further comprising a ventilation system to flood the airlock booth with fresh air after servicing the components is completed and the second door is closed and before the operator opens the first door to exit the airlock booth. 5. The coating system according to claim 1 further comprising a guard positioned in an aperture of the second door and configured to allow the operator in the airlock booth to reach into the safe zone of the painting cabin but not enter the painting cabin. 6. The coating system according to claim 1 further comprising sensors configured to detect the operator bodily moving into the safe zone and detect the operator reaching beyond the safe zone into the painting cabin. 7. The coating system according to claim 1 wherein services performed by the operator while in the airlock booth include cleaning the coating applicator of the robot, replacing components of the coating applicator, replacing arm-mounted paint delivery components, replacing overspray covers on the coating applicator and the outer arm, cleaning a cleaning station mounted to a floor of the painting cabin, and cleaning windows for visibility into the painting cabin. 8. The coating system according to claim 1 wherein each of the painting robots includes a color changer and a pumping device mounted to a back side of the mounting stand, said color changer and pumping device being accessible and serviceable from the operator aisle. 9. A coating system for performing a coating process on a part conveyed through a painting cabin, said system comprising: two or more painting robots each with at least five rotational axes, each of the painting robots having a robot base rotatable about a mounting stand, an inner arm rotatable about the robot base, an outer arm rotatable about the inner arm, a robot wrist attached to a free end of the outer arm, and a coating applicator coupled to the robot wrist; an airlock booth positioned proximal to the mounting stand of at least one of the painting robots, said airlock booth having a first door opening to an operator aisle and a second door opening to the painting cabin; and sensors configured to detect bodily movement of an operator, where the airlock booth is configured such that certain components of the one of the painting robots are accessible by the operator in the airlock booth when the one of the painting robots is parked in a service position and the second door is open, where other painting robots in the painting cabin continue painting while the operator in the airlock booth services the one of the painting robots, and where paint vapors from the painting cabin are prevented from entering the operator aisle, and wherein a safe zone is defined as a space within the painting cabin adjacent the airlock booth within which the operator is allowed to reach in order to service the one of the painting robots, where the sensors are configured to detect the operator bodily moving into the safe zone and detect the operator reaching beyond the safe zone into the painting cabin, and the service position of the one of the painting robots locates the certain components within the safe zone. 10. A method for servicing a painting robot system, said method comprising: providing a painting robot having a robot base rotatable about a mounting stand, said painting robot also having inner and outer arms connecting a robot wrist to the robot base, said painting robot further including a coating applicator coupled to the robot wrist; providing an airlock booth positioned adjacent to the mounting stand of the painting robot, said airlock booth having a first door opening to an operator aisle and a second door opening to a painting cabin, where a safe zone is defined within the painting cabin, the safe zone being a space adjacent the airlock booth within which an operator is allowed to reach in order to service the painting robot; placing the painting robot in a standby mode, where the painting robot discontinues painting and returns the coating applicator to a service position, while other painting robots in the painting cabin continue painting, the other painting robots assuming painting responsibilities of the painting robot which is in standby mode; entering the airlock booth from the operator aisle and closing the first door by an operator; opening the second door to access the painting robot by the operator; servicing certain components of the painting robot located within the safe zone by the operator while adjacent painting robots are prevented from entering the safe zone by envelope restriction software running on controllers of the adjacent painting robots; closing the second door by the operator after completing servicing; exiting the airlock booth to the operator aisle through the first door by the operator; and placing the painting robot in an operational mode and resuming painting operations by the painting robot. 11. The method according to claim 10 further comprising donning a breathing apparatus by the operator prior to opening the second door, where the breathing apparatus is an umbilical breathing device i