Method for protecting a converting unit for converting a web substrate, feeding station and packaging production machine

What is claimed is: 1. A feeding station configured to feed a web substrate to a substrate processing machine, the feeding station comprising: a feathering drive configured for receiving the web substrate and for feeding the web substrate toward the substrate processing machine; a loop control engaging the web substrate and configured to be operated in a first state, the loop control configured to move in the first state to generate variations in speed of the web substrate as the web substrate is passing the feathering drive; an infeed arrangement positioned downstream of the feathering drive in a direction of web substrate movement, and configured for feeding the web substrate toward an exit of the feeding station; a pressing roll at the feathering drive positioned and configured for holding the web substrate to the feathering drive; an accumulation storage configured to store the web substrate, the accumulation storage comprising an entrance located near the feathering drive for entrance of the web substrate into the accumulation storage from the feathering drive when the web substrate is being fed to the infeed arrangement past the feathering drive when the loop control is in a second state; and a signal processor configured to transmit a stop signal from a detection cell and cause the loop control to enter the second state, the loop control in the second state configured to move to a parking position against a mechanical barrier. 2. The feeding station according to claim 1 , wherein the entrance of the accumulation storage comprises an opening oriented in the direction of the loop control. 3. The feeding station according to claim 1 , wherein the feeding station comprises from upstream to downstream: a lateral web guide configured to feed the web substrate toward the feathering drive; the feathering drive, the loop control and the infeed arrangement. 4. The feeding station according to claim 3 , comprising, upstream of the feathering drive, a dance roller and a web decurler. 5. The feeding station according to claim 1 , wherein the loop control comprises a satellite roller. 6. The feeding station according to claim 1 , wherein the accumulation storage is positioned above the loop control. 7. The feeding station according to claim 1 , wherein the feathering drive comprises a feathering roll and a holding device for holding the web substrate to the feathering roll so that the web substrate passes around the feathering roll and does not enter the entrance into the accumulation storage as the web substrate moves from the web guide to the exit to the converting unit from the feeding station, in the first state. 8. The feeding station according to claim 7 , further comprising the web substrate loop control at the feathering roll is movable for controlling the movement of the web substrate through the feathering device. 9. The feeding station according to claim 8 , wherein the loop control comprises a loop control roll in contact with the web substrate on the feathering roll as the loop control roll oscillates between positions of blocking and opening the entrance into the accumulation storage. 10. The feeding station according to claim 1 , wherein the loop control comprises a satellite roll and the satellite roll contacts and oscillates around the feathering drive controlling the speed of the web substrate past the feathering drive. 11. The feeding station according to claim 1 , wherein the loop control holds the web substrate to the feathering drive as the loop control oscillates. 12. The feeding station of claim 1 , wherein the mechanical is barrier positioned and configured to prevent the web substrate entering the infeed arrangement when the loop control is in the second state. 13. The feeding station of claim 1 , wherein in the first state the loop control is moved to oscillate to generate the variations in speed of the web substrate.