Strapping device configured to dynamically adjust a tension parameter

The invention claimed is: 1 . A strapping device comprising: a movable platen configured to apply a compressive force to a load to compress the load before strapping; a strapping head configured to carry out a strapping process to form a loop of strap around the load, the strapping process including a tensioning cycle during which the strapping head is configured to tension the strap at least in part based on a tension parameter; a strap engager supported by the platen, the strap engager movable between a strapping position adjacent to the load and a measurement position spaced from the load; a force sensor supported by the platen and configured to detect an amount of force; and a controller configured to: control the strapping head to carry out the strapping process to form the loop of strap around the load; after forming the loop of strap around the load, receive, from the force sensor, force data representing an amount of tension in the loop of strap; determine, based on the force data, whether a tension-adjustment condition is met; and responsive to determining that the tension-adjustment condition is met, automatically adjust the tension parameter for a later tensioning cycle. 2 . The strapping device of claim 1 , wherein the strap engager comprises a finger, wherein the controller is operably connected to the strap engager to move the strap engager from the strapping position to the measurement position, wherein the controller is configured to control the strapping head to carry out the strapping process to form the loop of strap around the load with the strap engager in the strapping position such that the finger of the strap engager is between the load and the loop of strap, wherein the controller is configured to move the strap engager from the strapping position to the measurement position after forming the loop of strap around the load and to receive the force data after the strap engager reaches the measurement position. 3 . The strapping device of claim 2 , wherein the force data represents the amount of force sensed by the force sensor when the strap engager is in the measurement position. 4 . The strapping device of claim 3 , wherein the force data represents the amount of force applied by the finger of the strap engager to the loop of strap when the strap engager is in the measurement position. 5 . The strapping device of claim 3 , further comprising a strap-engager actuator operably connected to the strap engager and configured to move the strap engager from the strapping position to the measurement position, wherein the force data represents the amount of torque exerted by the strap-engager actuator when the strap engager is in the measurement position. 6 . The strapping device of claim 1 , wherein the controller is configured to determine the amount of tension in the loop of strap based on the force data and to determine whether the tension-adjustment condition is met by determining whether the amount of tension in the loop of strap is within a designated tension range. 7 . The strapping device of claim 6 , wherein the tension parameter comprises a tension level, wherein the controller is configured to, responsive to determining that the tension-adjustment condition is met: responsive to determining that the amount of tension in the loop of strap is below the designated tension range, increase the tension level for a next strapping process; and responsive to determining that the amount of tension in the loop of strap is above the designated tension range, decrease the tension level for a next strapping process. 8 . The strapping device of claim 1 , wherein the controller is configured to determine that the tension-adjustment condition is met when the loop of strap is over-tensioned or under-tensioned. 9 . The strapping device of claim 1 , wherein the controller is configured to: control the platen to descend such that the platen compresses the load before controlling the strapping head to carry out the strapping process; and control the platen to ascend after forming the loop of strap around the load and before receiving the force data. 10 . The strapping device of claim 1 , wherein the strap engager comprises a finger, and wherein the controller is configured to cause the strap-engager to pull the loop of strap a predetermined distance away from the load to determine the force data representing the amount of tension in the loop of strap. 11 . A method of operating a strapping machine, the method comprising: moving a platen to compress a load; carrying out a strapping cycle to form a loop of strap around the load and around a part of a movable strap engager supported by the platen, the strapping cycle including a tensioning cycle during which the strap is tensioned around the load at least in part based on a tension parameter; after the loop of strap has been formed around the load, receiving, from a force sensor supported by the platen, force data representing an amount of tension in the loop of strap; determining, based on the force data, that a tension-adjustment condition is met; and responsive to determining that the tension-adjustment condition is met, automatically adjusting the tension parameter for a later tensioning cycle. 12 . The method of claim 11 , further comprising: carrying out the strapping process to form the loop of strap around the load with the strap engager in a strapping position such that a finger of the strap engager is between the load and the loop of strap, wherein the finger comprises the part of the strap engager; moving the strap engager from the strapping position to a measurement position after the loop of strap is formed around the load; and receiving the force data after the strap engager reaches the measurement position. 13 . The method of claim 12 , wherein the force data represents the amount of force sensed by the force sensor when the strap engager is in the measurement position. 14 . The method of claim 13 , wherein the force data represents the amount of force applied by the finger of the strap engager to the loop of strap when the strap engager is in the measurement position. 15 . The method of claim 13 , further comprising moving the strap engager from the strapping position to the measurement position via a strap-engager actuator operably connected to the strap engager, wherein the force data represents the amount of torque exerted by the strap-engager actuator when the strap engager is in the measurement position. 16 . The method of claim 11 , further comprising determining the amount of tension in the loop of strap based on the force data and determining that the tension-adjustment condition is met by determining that the amount of tension in the loop of strap is within a designated tension range. 17 . The method of claim 16 , wherein the tension parameter comprises a tension level, further comprising, responsive to determining that the tension-adjustment condition is met and that the amount of tension in the loop of strap is below the designated tension range, increasing the tension level for a next strapping process. 18 . The method of claim 17 , further comprising, responsive to determining that the tension-adjustment condition is met and that the amount of tension in the loop of strap is above the designated tension range, decreasing the tension level for a next strapping process. 19 . The method of claim 11 , further comprising determining that the tension-adjustment condition is met when the loop of stra