Strapping device with an electrical drive

The invention claimed is: 1. A mobile strapping device for strapping packaged goods with a loop of wrapping strap, said mobile strapping device comprising: a tensioner configured to apply a strap tension to the loop of wrapping strap; a friction welder configured to produce a connection at two areas of the loop of wrapping strap disposed one on top of the other by way of reciprocating movement of a friction welding element; a motor operatively coupled to and configured to drive the tensioner and operate with the tensioner to apply the strap tension to the loop of wrapping strap by: (a) providing first drive movements to the tensioner for a speed-controlled first tensioning procedure carried out at a first strap retraction speed until a first tension is reached in the loop of wrapping strap, the first strap retraction speed being substantially constant during the first tensioning procedure; and (b) thereafter, providing second drive movements to the tensioner for a speed-controlled second tensioning procedure carried out at a second strap retraction speed until a second tension is reached in the loop of wrapping strap, the second strap retraction speed being less than the first strap retraction speed and the second strap retraction speed being substantially constant during the second tensioning procedure; a planetary gear system operatively coupled to the motor and the friction welder and configured to transfer and change third drive movements provided by the motor to the friction welder to cause the reciprocating movement of the friction welding element; and a chargeable energy storage device configured to store energy that can be released as drive energy for the drive movements of the motor. 2. The mobile strapping device of claim 1 , wherein the energy storage device includes a lithium ion storage battery. 3. The mobile strapping device of claim 1 , which includes a controller configured to automatically switch off the motor. 4. The mobile strapping device of claim 1 , which includes at least one device configured to determine a rotational position of a motor shaft of the motor or a position of an element arranged in a drive train of the friction welder dependent on the rotational position of the motor shaft. 5. The mobile strapping device of claim 4 , wherein the at least one device includes at least one detector arranged on the motor. 6. The mobile strapping device of claim 5 , wherein the at least one detector is also a component of a circuit for controlling electronically produced commutation of the motor. 7. The mobile strapping device of claim 1 , wherein a duration of a welding cycle, during which the friction welder is in use, can be adjusted, whereby the duration can be predetermined depending on a number of revolutions of the motor. 8. The mobile strapping device of claim 1 , wherein the friction welder includes a toggle lever device, which can be pivoted between two positions, whereby one end position of the toggle lever device determines a friction welding position and the other end position a rest position in which the friction welder is not in use. 9. The mobile strapping device of claim 1 , wherein the motor is a brushless direct current motor. 10. A method of strapping packaged goods with a loop of wrapping strap by means of a mobile storage battery-driven strapping device, said method comprising: (a) after the loop of wrapping strap is placed around the packaged goods, applying, via a tensioner of the strapping device, a strap tension to the loop of wrapping strap by: (i) providing, via a motor operatively coupled to the tensioner, first drive movements for a speed-controlled first tensioning procedure carried out at a first strap retraction speed until a first tension is reached in the loop of wrapping strap, the first strap retraction speed being substantially constant during the first tensioning procedure; and (ii) thereafter, providing, via the motor, second drive movements for a speed-controlled second tensioning procedure carried out at a second strap retraction speed until a second tension is reached in the loop of wrapping strap, the second strap retraction speed being less than the first strap retraction speed and the second strap retraction speed being substantially constant during the second tensioning procedure; and (b) producing, via a friction welder of the strapping device, a connection at two areas of the loop of wrapping strap disposed one on top of the other by way of reciprocating movement of a friction welding element, said reciprocating movement caused by third drive movements provided by the motor and transferred and changed by a planetary gear system operatively coupled to the motor and the friction welder. 11. The method of claim 10 , wherein the motor is a brushless direct current motor. 12. A mobile strapping device for strapping packaged goods with a loop of wrapping strap, said mobile strapping device comprising: a tensioner configured to apply a strap tension to the loop of wrapping strap; a friction welder configured to connect two areas of the loop of wrapping strap disposed one on top of the other by way of reciprocating movement of a friction welding element; a motor operatively coupled to and configured to drive both the tensioner and the connector, wherein the motor is further configured to: (a) operate with the tensioner to apply the strap tension to the loop of wrapping strap by: (i) providing first drive movements to the tensioner for a speed-controlled first tensioning procedure carried out at a first strap retraction speed until a first tension is reached in the loop of wrapping strap, the first strap retraction speed being substantially constant during the first tensioning procedure; and (ii) thereafter, providing second drive movements to the tensioner for a speed-controlled second tensioning procedure carried out at a second strap retraction speed until a second tension is reached in the loop of wrapping strap, the second strap retraction speed being less than the first strap retraction speed and the second strap retraction speed being substantially constant during the second tensioning procedure; and (b) provide third drive movements to the friction welder for connecting the two areas of the loop of wrapping strap; a planetary gear system operatively coupled to the motor and the friction welder and configured to transfer and change the third drive movements to cause the reciprocating movement of the friction welding element; and a chargeable battery configured to store energy that can be released as drive energy for the drive movements of the motor. 13. The mobile strapping device of claim 12 , further comprising a control device configured to automatically switch off the motor. 14. The mobile strapping device of claim 12 , further including a control device configured to determine a rotational position of a motor shaft of the motor or a position of an element arranged in a drive train of the connector dependent on the rotational position of the motor shaft. 15. The mobile strapping device of claim 12 , wherein the first and second tensioning procedures comprise a single tensioning action. 16. The mobile strapping device of claim 12 , wherein the motor is a brushless direct current motor.