Multi-flame burner and method for heating a workpiece

What I claim is: 1. A multi-flame burner with a plurality of burner heads and accompanying connection pipes, which are set up to generate at least one burner flame directed along a respective flame axis when supplied with a fuel, characterized in that the burner heads are provided in at least two groups (A, B) of burner heads, wherein the burner heads of at least one other group (B), and at least half of a connection pipe is offset, and the flame axes of the burner heads of at least the first group (A) are inclined divergent relative to the flame axes of the burner heads of at least the one other group (B), wherein the burner heads within each group (A, B) are each arranged in the same direction or in a direction parallel to each other, and the burner heads are alternatively interleaved relative to each other and the burner flames of group (A) point away from the burner flames of group (B). 2. The multi-flame burner according to claim 1 , characterized in that all connection pipes are offset. 3. The multi-flame burner according to claim 1 , characterized in that the offset connection pipes exhibit an offset angle of 30° to 60°. 4. The multi-flame burner according to claim 3 , characterized in that the offset connection pipes exhibit an offset angle of approximately 45°. 5. The multi-flame burner according to claim 1 , characterized in that a respective connection pipe is connected to a respective connection nozzle by way of a screw joint, wherein the respective other end of the connection nozzle is secured to a shared feed line, and can be supplied with the fuel through the shared feed line. 6. The multi-flame burner according to claim 1 , in which the burner heads each exhibit flame axes, which are axially and/or radially inclined in relation to a perpendicular on a center line of the shared feed line. 7. The multi-flame burner according to claim 6 , wherein respectively adjacent ones of the plurality of burner heads are inclined to each other by an angle of from 5° to 45° relative to each other. 8. The multi-flame burner according to claim 1 , characterized in that a gas supply device supplies the multi-flame burner with at least one gaseous fuel selected from the group consisting of an acetylene-containing fuel mixture, an acetylene-(compressed) air-mixture and an acetylene-oxygen mixture. 9. The multi-flame burner according to claim 1 , characterized in that a feed line configured as a bent shaft is connected to each one of the connection pipes. 10. The multi-flame burner according to claim 9 , characterized in that the bent shaft is constructed from a material comprising stainless steel. 11. The multi-flame burner according to claim 1 characterized in that the burner heads are spaced apart 5 to 15 centimeters from each other. 12. The multi-flame burner according to claim 5 , characterized in that the burner heads are radially alternately inclined clockwise and counterclockwise in relation to the axis of the shared feed line. 13. A method for preheating a workpiece by a multi-flame burner which comprises a plurality of burner heads and accompanying connection pipes, which are set up to generate at least one burner flame directed along a respective flame axis when supplied with a fuel characterized in that the burner heads are provided in at least two groups (A, B) of burner heads, wherein the burner heads of at least a first group (A) are each arranged alternately to the burner heads of at least one other group (B), and at least half of a connection pipe is offset, and the flame axes of the burner heads of at least the first group (A) are inclined divergent relative to the flame axes of the burner heads of at least one other group (B), and the at least one burner flames generated by the multi-flame burner is directed at the workpiece, wherein the burner heads within each group (A, B) are each arranged in the same direction or in a direction parallel to each other, and the burner heads are alternatively interleaved relative to each other and the burner flames of group (A) point away from the burner flames of group (B). 14. The method according to claim 13 , characterized in that the workpiece is a pipe.