Configurable service isolation zones for service of equipment employing mobile robots

What is claimed is: 1. A system for an order fulfillment facility comprising at least a two dimensional array of storage locations, a track system, and a deck at least adjacent the two dimensional array of storage locations, the system comprising: a plurality of mobile robots configured to move on the track system and around on the deck to perform order fulfillment operations at the storage locations; and a safety system, comprising: a plurality of zones within a space defined by at least one of the track system and deck; a plurality of mechanical guards mounted with respect to at least one of the track system and deck to define one of the zones of the plurality of zones as a service zone, the plurality of mechanical guards configured to prevent the mobile robots from entering the service zone; and a control system including one or more processors configured to prevent movement of the plurality of mobile robots throughout the order fulfillment facility while defining a perimeter of the service zone, the one or more processors further configured to: confirm when each access point in the service zone is sealed by a mechanical guard; and restart operation of at least some of the mobile robots outside of the service zone upon confirmation that each access point to the service zone is sealed. 2. The safety system of claim 1 , wherein each of the plurality of mechanical guards is configured to send a signal to the control system when each of the mechanical guards is secured over an access point into the service zone. 3. The safety system of claim 2 , wherein each of the mechanical guards of the plurality of mechanical guards comprises a safety rated switch for generating the signal. 4. The safety system of claim 1 , wherein the size of the service zone is variably configurable depending on the positions of the mechanical guards in the space. 5. The safety system of claim 1 , wherein the plurality of mechanical guards comprise vertically oriented mechanical guards mounted to the track system preventing horizontal movement of the mobile robots along the track system into the service zone. 6. The safety system of claim 1 , wherein the plurality of mechanical guards comprise horizontally oriented mechanical guards mounted to the track system preventing vertical movement of the mobile robots along the track system into the service zone. 7. The safety system of claim 1 , wherein the deck includes an opening configured to allow vertical travel of the mobile robots through the deck, the plurality of mechanical guards comprising a horizontally oriented mechanical guard mounted over the opening of the deck to prevent vertical movement of the mobile robots through the deck into the service zone. 8. The safety system of claim 1 , wherein the service zone is located on a deck around the two dimensional array of storage locations, the plurality of mechanical guards comprise vertically oriented mechanical guards mounted to the track system preventing horizontal movement of the mobile robots into the service zone on the deck around the two dimensional array of storage locations. 9. A safety system for an order fulfillment facility comprising a plurality of mobile robots, and at least a two dimensional array of storage locations, a track system configured to allow the plurality of mobile robots to move adjacent the storage locations to perform order fulfillment operations at the storage locations, and a deck at least adjacent the two dimensional array of storage locations, the safety system comprising: a plurality of zones within a space defined by at least one of the track system and deck; a plurality of mechanical guards mounted with respect to at least one of the track system and deck to define one of the zones of the plurality of zones as a service zone, the plurality of mechanical guards configured to prevent a group of one or more mobile robots of the plurality of mobile robots positioned outside of the service zone from entering the service zone; and a safety control system comprising one or more processors configured to implement a safety protocol for safe servicing within the service zone, wherein, in implementing the safety protocol, the one or more processors are configured to: shutdown the group of one or more mobile robots outside of the service zone; determine when the plurality of mechanical guards are established around the service zone; and resume operation of the group of one or more mobile robots outside of the service zone, upon determining that the plurality of mechanical guards are established around the service zone. 10. The safety system of claim 9 , wherein, in implementing the safety protocol, the one or more processors are further configured to identify one or more mobile robots of the mobile robots in the service zone, and to route the one or more mobile robots out of the service zone prior to shutting down the order fulfillment operations. 11. The safety system of claim 9 , wherein, in implementing the safety protocol, the one or more processors determine when the plurality of mechanical guards are established around the service zone by receipt of signals from the mechanical guards. 12. The safety system of claim 9 , wherein, in implementing the safety protocol, the one or more processors are configured to: shutdown the mobile robots; determine when the plurality of mechanical guards are established around the service zone; and power the mobile robots back up, for operation around the service zone, upon determining that the plurality of mechanical guards are established around the service zone. 13. The safety system of claim 9 , further comprising interlock switches for interlocking the plurality of mechanical guards to the control system. 14. The safety system of claim 9 , wherein the plurality of mechanical guards are manually installed barriers. 15. The safety system of claim 9 , wherein the plurality of mechanical guards are automatically actuated gates, doors or barriers. 16. The safety system of claim 9 , wherein the group of one or more mobile robots comprises all of the plurality of mobile robots. 17. A safety system for an order fulfillment facility comprising mobile robots and at least a two dimensional array of storage locations, the mobile robots configured to move adjacent the storage locations to perform order fulfillment operations at the storage locations, the order fulfillment facility further comprising at least one of a track system through the two dimensional array and one or more decks at least adjacent the two dimensional array of storage locations, the safety system comprising: a perimeter defining a first space and a second space different than the first space within the order fulfillment facility, the first space in which humans are to operate, and a group of the mobile robots operating in the second space, the perimeter preventing the group of mobile robots from crossing into the first space; and a safety control system comprising one or more processors configured to implement a safety protocol for human entry into a service area within the second space, wherein, in implementing the safety protocol, the one or more processors are configured to: perform one of sending a shutdown signal, or stop sending an enabling signal, to the group of mobile robots operating, in the second space, the group of mobile robots in the second space shutting down upon receipt of the shutdown signal or upon not receiving the enabling signal; after shutdown of the group of mobile robots, determine when a redefined perimeter is established, the redefined perime