Micromanipulator

We claim: 1. A micromanipulator for mounting on an end of a macromanipulator, the micromanipulator comprising: a connection plate with a first motor and a second motor connected to a rigidly mounted base section, a first rotational section connected to the base section about a first pivotable axis, the first rotational section being further connected to the first motor via a first slider rod, and a second rotational section connected to the first rotational section about a second pivotable axis, the second rotational section being further connected to the second motor via a second slider rod, wherein a first rotational joint between the base section and the first rotational section and a second rotational joint between the first rotational section and the second rotational section are offset by 90°. 2. The micromanipulator according to claim 1 , wherein a tool is connected to the second rotational section. 3. The micromanipulator according to claim 2 , wherein the tool is a welding torch having a gas supply and an igniter. 4. The micromanipulator according to claim 3 , wherein a wire feeder is connected to the welding torch. 5. The micromanipulator according to claim 1 , wherein the base section is held in position by at least two rigid rods mounted to an upper plate. 6. The micromanipulator according to claim 1 , wherein the base section is mounted to a housing which is connected to an upper plate and surrounds the first motor and the second motor. 7. The micromanipulator according to claim 1 , wherein the first motor and the second motor are DC motors or servo motors. 8. The micromanipulator according to claim 1 , wherein the first slider rod and the second slider rod have a break with a connector section to offset a position of a distal end of the first slider rod and the second slider rod to a proximal end. 9. A robotic arm tool, comprising a six degrees of freedom robot having positionally manipulatable sections, wherein at a distal end is the micromanipulator according to claim 1 . 10. The robotic arm tool according to claim 9 , wherein the robotic arm tool is connected to a robot arm controller, which is in turn connected to a computer having a program for controlling the robotic arm tool. 11. A method for operating the robotic arm tool according to claim 9 , comprising: moving the robotic arm tool from an initial position to a desired position; and manipulating actuators to trace a desired path along a component, whilst signals are provided to the micromanipulator to provide fine movement of an end effector for accurate control of the robotic arm tool. 12. The method according to claim 11 , further comprising controlling a tool that is connected to an end of the micromanipulator.