Strapping machine including an edge-protector magazine having a telescopic rail assembly

The invention claimed is: 1. A strapping machine for positioning an edge protector on an edge of a load and for strapping the load, the strapping machine comprising: a packing table; two supports on opposing sides of the packing table; a press plate supported by and vertically movable relative to the supports, wherein the packing table, the supports, and the press plate define a strap chute; and an edge-protector magazine supported by the press plate, the edge-protector magazine comprising: a magazine frame defining a storage space sized to receive a stack of edge protectors; a telescopic rail assembly supported by the magazine frame and comprising a first outer telescopic rail and a first inner telescopic rail, wherein the first outer telescopic rail comprises a first outer guide rail and a first inner guide rail received in and movable relative to the first outer guide rail in a discharging direction and a retracting direction, and wherein the first inner telescopic rail comprises a first outer guide rail and a first inner guide rail received in and movable relative to the first outer guide rail in the discharging and retracting directions; a conveying unit mounted to the telescopic rail assembly and movable between a home position and a discharge position, wherein at least part of the conveying unit is below the storage space when in the home position and removed from the storage space when in the discharge position; and a drive operably connected to the telescopic rail assembly and configured to extend the telescopic rail assembly to move the conveying unit in the discharging direction from its home position to its discharge position and to retract the telescopic rail assembly to move the conveying unit in the retracting direction from its discharge position to its home position. 2. The strapping machine of claim 1 , wherein the drive comprises a motor. 3. The strapping machine of claim 1 , wherein the first outer guide rail of the first outer telescopic rail is fixed relative to the magazine frame, and wherein the first inner guide rail of the first outer telescopic rail is operably connected to the first inner telescopic rail such that the first inner telescopic rail moves with the first inner guide rail of the first outer telescopic rail in the discharging and retracting directions. 4. The strapping machine of claim 3 , wherein the first inner guide rail of the first inner telescopic rail is operably connected to the conveying unit such that the conveying unit moves with the first inner guide rail of the first inner telescopic rail in the discharging and retracting directions. 5. The strapping machine of claim 4 , wherein the drive is operably connected to the first inner guide rail of the first outer telescopic rail to cause the first inner guide rail to move relative to the magazine frame in the discharging and retracting directions, and wherein movement of the first inner guide rail of the first outer telescopic rail in the discharging and retracting directions causes the first inner guide rail of the first inner telescopic rail to move relative to the first outer telescopic rail in the discharging and retracting directions. 6. The strapping machine of claim 5 , wherein the telescopic rail assembly further comprises first and second pulleys, a first belt connecting the first and second pulleys, and a first clamp fixedly attached to the first belt and operably connected to the first inner guide rail of the first outer telescopic rail and the first outer guide rail of the first inner telescopic rail, wherein the drive is operably connected to the first pulley to drive the first pulley in a first rotational direction to cause the first belt to move around the first and second pulleys in the first rotational direction such that the first clamp moves in the discharging direction, thereby causing the first inner guide rail of the first outer telescopic rail and the first outer guide rail of the first inner telescopic rail to move in the discharging direction, and wherein the drive is operably connected to the first pulley to drive the first pulley in a second rotational direction to cause the first belt to move around the first and second pulleys in the second rotational direction such that the first clamp moves in the retracting direction, thereby causing the first inner guide rail of the first outer telescopic rail and the first outer guide rail of the first inner telescopic rail to move in the retracting direction. 7. The strapping machine of claim 6 , wherein the telescopic rail assembly further comprises third and fourth pulleys, a second belt connecting the first and second pulleys, a second clamp fixedly attached to the second belt and fixed relative to the magazine frame, and a third clamp fixedly attached to the second belt and operably connected to the first inner guide rail of the first inner telescopic rail, wherein movement of the first inner guide rail of the first outer telescopic rail and the first outer guide rail of the first inner telescopic rail in the discharging direction causes the second belt to move around the third and fourth pulleys in a third rotational direction such that the third clamp moves in the discharging direction, thereby causing the first inner guide rail of the first inner telescopic rail and the conveying unit to move in the discharging direction, wherein movement of the first inner guide rail of the first outer telescopic rail and the first outer guide rail of the first inner telescopic rail in the retracting direction causes the second belt to move around the third and fourth pulleys in a fourth rotational direction such that the third clamp moves in the retracting direction, thereby causing the first inner guide rail of the first inner telescopic rail and the conveying unit to move in the retracting direction. 8. The strapping machine of claim 7 , wherein the first and fourth rotational directions are the same rotational direction, and wherein the second and third rotational directions are the same rotational direction. 9. The strapping machine of claim 7 , wherein the telescopic rail assembly further comprises an assembly plate to which the first inner guide rail of the first outer telescopic rail, the first outer guide rail of the first inner telescopic rail, and the first clamp are fixedly mounted. 10. The strapping machine of claim 9 , wherein the telescopic rail assembly further comprises an assembly bridging bracket to which the conveying unit, the third clamp, and the first inner guide rail of the first inner telescopic rail are fixedly mounted. 11. The strapping machine of claim 10 , wherein the telescopic rail assembly further comprises: a second outer telescopic rail comprising a first outer guide rail and a first inner guide rail received in and movable relative to the first outer guide rail in the discharging and retracting directions; and a second inner telescopic rail comprising a first outer guide rail and a first inner guide rail received in and movable relative to the first outer guide rail in the discharging and retracting directions, wherein the first outer guide rail of the second outer telescopic rail is fixed relative to the magazine frame, wherein the first inner guide rail of the second outer telescopic rail and the first outer guide rail of the second inner telescopic rail are fixedly mounted to the assembly plate; wherein the first inner guide rail of the second inner telescopic rail is fixedly mounted to the assembly-bridging bracket. 12. The strapping machine of claim 1 , further comprising a positioning unit supported by the press plate and configured to receive an edge protector from the