In accordance with an aspect of the application, a device for the driving in of an affixing element into a substrate has an energy transfer element for the transfer of energy to the affixing element. Preferably, the energy transfer element can be moved between a starting position and a placement pos
In accordance with an aspect of the application, a device for the driving in of an affixing element into a substrate has an energy transfer element for the transfer of energy to the affixing element. Preferably, the energy transfer element can be moved between a starting position and a placement position, wherein the energy transfer element is located in the starting position before a driving-in process and in the placement position, after the driving-in process. In accordance with another aspect of the application, the device comprises a mechanical energy storage unit for the storage of mechanical energy. The energy transfer element is then preferably suited for the transfer of energy from the mechanical energy storage unit to the affixing element.
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1. A device for the driving in of an affixing element into a substrate, comprising a mechanical energy storage unit for the storage of mechanical energy, an energy transfer element, moveable along a placement axis, between a starting position and a placement position, for the transfer of energy from
1. A device for the driving in of an affixing element into a substrate, comprising a mechanical energy storage unit for the storage of mechanical energy, an energy transfer element, moveable along a placement axis, between a starting position and a placement position, for the transfer of energy from the mechanical storage unit to the affixing element, and an energy transfer device for the transfer of energy from an energy source to the mechanical energy storage unit, wherein the energy transfer device comprises a first energy supply device for the transfer of energy from an energy source to the mechanical energy storage unit, and a second energy supply device, different from the first energy supply device, for the transfer of energy from the energy source to the mechanical energy storage unit, wherein the second energy supply device operates when the first energy supply device does not operate and the second energy supply device transfers energy to the mechanical energy storage unit, without moving the energy transfer element and/or derives energy from the mechanical energy storage unit, without moving the energy transfer element. 2. The device according to claim 1, wherein the energy transfer device comprises a force transfer device, for the transfer of a force from the mechanical energy storage unit to the energy transfer element, and/or for the transfer of a force from the energy transfer device, to the mechanical energy storage unit. 3. The device according to claim 1, wherein the first energy supply device conveys the energy transfer element from the placement position to the starting position. 4. The device according to claim 1, wherein the energy transfer device comprises a force deflector. 5. The device according to claim 1, wherein the energy transfer device comprises a carrying element, which engages with the energy transfer element, for the movement of the energy transfer element, from the placement position to the starting position. 6. The device according to claim 1, wherein the first energy supply device has a movement converter, that converts rotational movement to linear movement with a rotation drive, which is driven by the engine. 7. The device according to claim 2, wherein the force transfer device comprises a force deflector, and wherein the second energy supply device comprises a winding roll for the winding of the force deflector. 8. The device according to claim 2, wherein the force transfer device transfers force from the first and/or second energy supply device to the mechanical energy storage unit. 9. The device according to claim 4, wherein the force deflector comprises a band or a cable line. 10. A device for driving an affixing element into a substrate, comprising a mechanical energy storage unit for storing mechanical energy, an energy transfer element, movable along a placement axis, between a starting position and a placement position, for the transfer of energy from the mechanical storage unit to the affixing element, and an energy transfer device for transferring energy from an energy source to the mechanical energy storage unit, wherein the energy transfer device comprises a first energy supply device for transferring energy from an energy source to the mechanical energy storage unit, and a second energy supply device, different from the first energy supply device, for transferring energy from the energy source to the mechanical energy storage unit, wherein the second energy supply device operates when the first energy supply device does not operate and the second energy supply device transfers energy to the mechanical energy storage unit, without moving the energy transfer element and/or derives energy from the mechanical energy storage unit, without moving the energy transfer element, wherein the energy transfer device comprises an engine with an engine driven end and a torque transfer device, for transferring torque from the engine driven end, the torque transfer device comprising a gear with a gear unit input, a first gear unit output, and a second gear unit output, wherein the first and/or the second gear unit outputs have a free wheel. 11. The device according to claim 10, wherein the energy transfer device comprises a force transfer device, for the transfer of a force from the mechanical energy storage unit to the energy transfer element, and/or for the transfer of a force from the energy transfer device to the mechanical energy storage unit, wherein the force transfer device comprises a force deflector, and wherein the second energy supply device comprises a winding roll for the winding of the force deflector. 12. The device according to claim 10, wherein the energy transfer device comprises a force transfer device, for the transfer of a force from the mechanical energy storage unit to the energy transfer element, and/or for the transfer of a force from the energy transfer device to the mechanical energy storage unit, wherein the force transfer device transfers force from the first and/or second energy supply device to the mechanical energy storage unit. 13. A device for driving an affixing element into a substrate, comprising: a mechanical energy storage unit for storing mechanical energy;an energy transfer element, moveable along a placement axis, between a starting position and a placement position, wherein the energy transfer element transfers energy from the mechanical storage unit to the affixing element; andan energy transfer device that transfers energy from an energy source to the mechanical energy storage unit, wherein the energy transfer device comprises a first energy supply device that transfers energy from the energy source to the mechanical energy storage unit, anda second energy supply device, different from the first energy supply device, for transferring energy from the energy source to the mechanical energy storage unit, wherein the first energy supply device moves the energy transfer element from the placement position to the starting position, and wherein the second energy supply device does not move the energy transfer element. 14. The device according to claim 13, wherein the first energy supply device conveys the energy transfer element from the placement position to the starting position. 15. The device according to claim 13, wherein the second energy supply device transfers energy to the mechanical energy storage unit, without moving the energy transfer element and/or derives energy from the mechanical energy storage unit, without moving the energy transfer element. 16. The device according to claim 13, wherein the energy transfer device comprises a force transfer device, for the transfer of a force from the mechanical energy storage unit to the energy transfer element, and/or for the transfer of a force from the energy transfer device to the mechanical energy storage unit, wherein the force transfer device comprises a force deflector, and wherein the second energy supply device comprises a winding roll for the winding of the force deflector. 17. The device according to claim 13, wherein the energy transfer device comprises a force transfer device, for the transfer of a force from the mechanical energy storage unit to the energy transfer element, and/or for the transfer of a force from the energy transfer device to the mechanical energy storage unit, wherein the force transfer device transfers force from the first and/or second energy supply device to the mechanical energy storage unit. 18. The device according to claim 13, wherein the energy transfer device comprises an engine with an engine driven end and a torque transfer device, for transferring torque from the engine driven end, the torque transfer device comprising a gear with a gear unit input, a first gear unit output, and a second gear unit output, wherein the first and/or the second gear unit outputs have a free wheel.
Leimbach, Richard L.; Adams, Shane; Clark, Thomas W.; Petrocelli, Michael V.; Petrocelli, legal representative, Teresa, Method for controlling a fastener driving tool using a gas spring.
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