Thermal trip device, switching device, thermal magnetic circuit breaker and method for protecting an electrical circuit from damage

What is claimed is: 1. Thermal trip device of a thermal magnet circuit breaker for protecting an electrical circuit from damage by overload, the thermal trip device comprising: at least one bimetal element, arranged with a first end of the at least one bimetal element at a current conductive element, for conducting electrical current, and arranged with a second end of the at least one bimetal element next to a tripping device, adapted for interrupting a current flow; and a snap action device for force transmission from the at least one bimetal element to the tripping device, wherein the snap action device includes a spring element attached at its ends to a stationary housing element, and wherein the bimetal element includes an actuator element, on the second end of the bimetal element, the actuator directly contacting the spring element at least during an overload occurs. 2. Thermal trip device of claim 1 , wherein the spring element is a flat spring preloaded in a curved manner. 3. Thermal trip device of claim 2 , wherein, in an initial position of the snap action device, a curve of the spring element is bended in direction to the bimetal element and in a trip position of the snap action device, the curve of the spring element is bended in direction to the tripping device. 4. Thermal trip device of claim 1 , wherein, in an initial position of the snap action device, a curve of the spring element is bended in direction to the bimetal element and in a trip position of the snap action device, the curve of the spring element is bended in direction to the tripping device. 5. Switching device for interrupting a current flow, the switching device comprising: at least a current conductive element for conducting electrical current; a tripping device, adapted to interrupt the current flow; a bimetal element, arranged with a first end of the bimetal element at the current conductive element, and arranged with a second end of the bimetal element next to at least one of the tripping device; and a snap action device, arranged between the tripping device and the bimetal element, to transmit force of the bimetal element to the tripping device at least during a trip event, wherein the snap action device includes a spring element attached at its ends to a stationary housing element, and wherein the bimetal element includes an actuator element, on the second end of the bimetal element, the actuator directly contacting the spring element at least during an overload occurs. 6. Switching device of claim 5 , further comprising a thermal trip device of a thermal magnet circuit breaker for protecting an electrical circuit from damage by overload. 7. Thermal magnetic circuit breaker for protecting an electrical circuit from damage caused by overload or short circuit, comprising: at least one of the switching device of claim 6 . 8. Thermal magnetic circuit breaker for protecting an electrical circuit from damage caused by overload or short circuit, comprising: at least one of the switching device of claim 5 . 9. Method for protecting an electric circuit from damage by overload by way of a thermal trip device of a thermal magnet circuit breaker, the method comprising: heating, via an electric current conducted at least partially along a current conductive element, a bimetal element, having an actuator on a free end of the bimetal, arranged with a first end of the bimetal element at the current conductive element, at least indirectly, during an overload occurrence; and deflecting, based on the heating, the bimetal element and the actuator in direction to a tripping device; and transmitting, via a stationary snap action device arranged in a housing between the bimetal element and the tripping device, a force of the deflecting bimetal element to the tripping device to move the tripping device to interrupt the current flow by causing the actuator to directly contact the snap action device at least during an overload. 10. The method of claim 9 , wherein a portion of a spring element of the snap action device moves from an initial position to a trip position in order to unlatch the tripping device during an overload occurrence. 11. The method of claim 10 , wherein the spring element is a flat spring.