Rescue system and methods for retrieving a malfunctioning vehicle from a rail system

The invention claimed is: 1. A rescue system for retrieving a malfunctioning vehicle from a rail system of an automated storage and retrieval system, the rail system comprising a plurality of rails with tracks extending in an X-direction and a plurality of rails with tracks extending in a Y-direction perpendicular to the X-direction, and a plurality of remotely operated vehicles configured to move in the X-direction and the Y-direction on the tracks of the rail system, wherein the rescue system comprises: a first rescue vehicle configured to run on the tracks of the rail system, the first rescue vehicle comprising a lifting device on one side of the first rescue vehicle, the lifting device configured to engage in a first X-direction, and a part of the lifting device extending into a neighboring cell when the first rescue vehicle is positioned in a center of a grid cell; and a second rescue vehicle configured to run on the tracks of the rail system, the second rescue vehicle comprising a lifting device on an opposite side of the second rescue vehicle relative to the one side of the first rescue vehicle, the lifting device configured to engage in a second X-direction opposite to the first X-direction, and a part of the lifting device extending into a neighboring cell when the second rescue vehicle is positioned in a center of a grid cell; wherein the first rescue vehicle and the second rescue vehicle are configured to work in tandem so that when one of the plurality of remotely operated vehicles malfunctions, the first rescue vehicle and the second rescue vehicle position themselves on the rail system on opposite sides of the malfunctioning vehicle to engage their respective lifting devices with the opposite sides of the malfunctioning vehicle and operate their lifting devices simultaneously so as to lift the malfunctioning vehicle off the rail system and transport the malfunctioning vehicle. 2. The rescue system of claim 1 , wherein each respective lifting device comprises a vertical plate with a lip extending therefrom, and wherein the part of each respective lifting device is the corresponding lip. 3. The rescue system of claim 1 , wherein the rescue system further comprises a control system, and wherein the control system comprises cooperative communication means configured to communicate with the communication means of the first rescue vehicle and the second rescue vehicle to operate synchronously. 4. The rescue system of claim 1 , wherein the rail system is at a top level of the automated storage and retrieval system. 5. The rescue system of claim 1 , wherein the rail system is a delivery rail system. 6. The rescue system of claim 1 , wherein each of the first rescue vehicle and the second rescue vehicle comprises two set of wheels for movement in the X-direction and the Y-direction along the rail system. 7. The rescue system of claim 1 , wherein the lifting device comprises an actuator configured to raise and lower the malfunctioning vehicle relative the rail system. 8. The rescue system of claim 1 , wherein the first rescue vehicle and the second rescue vehicle each comprise communication means for synchronous operation. 9. The rescue system of claim 8 , wherein the communication means enables communication between the first rescue vehicle and the second rescue vehicle. 10. The rescue system of claim 9 , wherein the first rescue vehicle is a master rescue vehicle and the second rescue vehicle is a slave rescue vehicle configured to be at least partly operated by instructions from the master rescue vehicle; or wherein the second rescue vehicle is a master rescue vehicle and the first rescue vehicle is a slave rescue vehicle configured to be at least partly operated by instructions from the master rescue vehicle. 11. The rescue system of claim 1 , wherein at least one of the first rescue vehicle or the second rescue vehicle comprises at least one rotary drive to winch up one or more of: a lifting frame; and a track shift motor of the malfunctioning vehicle. 12. The rescue system of claim 11 , wherein the at least one rotary drive is pivotable, an axis of the rotary drive is configured to be pivoted between a stowed vertical position during movement of at least one of the first rescue vehicle or the second rescue vehicle on the rail system, and the axis of the rotary drive is further configured to be pivoted to a deployed horizontal position for winching up one or more of: a lifting frame; and a track shift motor of the malfunctioning vehicle. 13. The rescue system of claim 12 , wherein the rotary drive for the lifting frame is arranged in an upper part of the rescue vehicle, and wherein, when in the deployed horizontal position, the rotary drive is supported by an actuator. 14. The rescue system of claim 12 , wherein the rotary drive is connected to a linear actuator for movement between the stowed vertical position and the deployed horizontal position, and wherein, when in the stowed vertical position, a perimeter of the rotary drive is arranged within a horizontal perimeter of a wheel base unit, and wherein, when in the deployed horizontal position, at least a portion of the rotary drive extends beyond a perimeter of a wheel base unit. 15. A rescue system for retrieving a malfunctioning vehicle from a rail system of an automated storage and retrieval system, the rail system comprising a plurality of rails with tracks extending in an X-direction and a plurality of rails with tracks extending in a Y-direction perpendicular to the X-direction, the rails defining a plurality of grid cells, and a plurality of remotely operated vehicles configured to move in the X-direction and Y-direction on the tracks of the rail system, wherein the rescue system comprises: a first rescue vehicle comprising a first wheel base unit configured to run on the tracks of the rail system, the first wheel base unit providing a mobile platform corresponding in area to a single grid cell for a first vehicle rescue module mounted thereon, wherein the first vehicle rescue module is orientated in a first direction of the rail system; a second rescue vehicle comprising a second wheel base unit configured to run on the tracks of the rail system, the second wheel base unit providing a mobile platform corresponding in area to a single grid cell for a second vehicle rescue module mounted thereon, wherein the second vehicle rescue module is orientated in a second direction of the rail system opposite to the first direction; wherein the first rescue vehicle and the second rescue vehicle are configured to work in tandem to perform rescue operations on the malfunctioning vehicle of the plurality of remotely operated vehicles, the first vehicle rescue module and the second vehicle rescue module comprise a lifting device; and wherein a part of the lifting device of the first vehicle rescue module extends into a neighboring cell when the first rescue vehicle is positioned in a center of a grid cell, a part of the lifting device of the second vehicle rescue module extends into a neighboring cell when the second rescue vehicle is positioned in a center of a grid cell, and the first vehicle rescue module and the second vehicle rescue module are arranged to engage opposite sides of the malfunctioning vehicle and lift the malfunctioning vehicle off the rail system using the respective lifting devices orientated in opposite facing directions. 16. The rescue system of claim 15 , wherein the first vehicle rescue module and the second vehicle rescue module each comprise a lifting plate with a lip extending at a height above an upper surface of ea