Cleaning apparatus for a mechanical cleaning of a gas nozzle of a protective gas welding burner

The invention claimed is: 1. A cleaning apparatus for a mechanical cleaning of a gas nozzle of a protective gas welding burner, comprising: a controlled, rotatably driven cleaning head having at least one co-rotating cleaning element, and a supplying and centering device to provide a coaxial position of the gas nozzle with respect to the rotational axis of the cleaning head in the region of at least one cleaning element, wherein the cleaning element are cleaning scissors with two cleaning arms, which are arranged suspended so as to form scissors that are freely swinging on a pivot bearing transversely to the axis of rotation in the cleaning head, wherein on the cleaning arms are arranged centrifugal weights at an end region facing away from the gas nozzle, the centrifugal weights are situated on the end regions of the respective cleaning arms on respective pivot axes, such that the centrifugal weights freely swing about the respective pivot axes, so that with a rotation of the cleaning head, the cleaning arms are spread open and the centrifugal weights move radially outward with respect to the pivot bearing, wherein the cleaning arms are provided with respective scraper structures facing away from the gas nozzle, which are introduced in a folded state of the cleaning scissors into the gas nozzle and which, when the cleaning scissors are spread open, are pressed with a rotation of the cleaning head to a gas nozzle inner surface of the gas nozzle held in a rotationally fixed manner so that they are pressed to it in a sliding and scraping manner. 2. The cleaning apparatus according to claim 1 , wherein the gas nozzle is an extremely conically tapered gas nozzle tip provided with a correspondingly undercut, conical gas nozzle inner surface, and wherein the cleaning arms are flat bar elements and the scraper structures are designed as scraper edges oriented in a spreading direction, or as replaceable blades, wherein the rotating scraper edges form in the state introduced into the gas nozzle tip a virtual rotating body for a full-surface cleaning corresponding to the conical gas nozzle inner surfaces. 3. The cleaning device according to claim 2 , wherein a scraper section is formed next on the scraper edge projecting in the spreading direction facing away from the gas nozzle side, and wherein each rotating scraper section is pressed thereupon for cleaning the end face of the gas nozzle tip with sliding and scraping. 4. The cleaning device according to claim 1 , wherein upper lever arm parts of the cleaning arms extending from the pivot bearing are shorter than lower lever arms facing away from the gas nozzle, starting from the pivot bearing. 5. The cleaning device according to claim 1 , wherein the centrifugal force weights are freely swinging with the cleaning arms, the end regions that are bent in the spreading direction by means of the pivot axes of the cleaning arms. 6. The cleaning apparatus according to claim 2 , wherein the cleaning head is designed as a cup-shaped or as a cage-shaped hollow body with a drive shaft arranged centrally on the base, wherein the cleaning scissors are arranged in an interior of the hollow body in a direction of the axis of rotation, and wherein the hollow body is provided with an upper wall having a central introduction opening, through which the gas nozzle can be introduced with the conically tapered gas nozzle tip into a region of the scraper structures of the cleaning scissors in a defined cleaning position. 7. The cleaning apparatus according to claim 6 , wherein plastic bristles directed inward, are arranged on the upper wall in the region of the introduction opening for the formation of a rotating brush ring of a plastic brush, which lie flat in the cleaning position of a gas nozzle on the gas nozzle outer surface for a surface cleaning with the rotating brush ring, wherein the contact surface of the brush ring is adapted to the conicity of the gas nozzle tip by means of a corresponding bristle length. 8. The cleaning apparatus according to claim 7 , wherein on the upper wall is arranged and mounted a centering aid part in a rotationally stable manner, which is to say not co-rotating, which is provided with a central centering aid opening adapted to the conical gas nozzle outer surface in such a way with a flat surface contact of the gas nozzle in the centering aid opening, a predetermined, defined cleaning position is reached and maintained. 9. The cleaning apparatus according to claim 8 , wherein an insertion funnel can be form-fittingly inserted at a defined interval with a specific wall thickness between the centering aid opening and an inserted gas nozzle, which is formed from an inserted half shell, wherein this interval is used as a switch-on point for the rotary drive of the cleaning head and as a programming height for supplying the gas nozzle to the cleaning head by means of a welding robot. 10. The cleaning apparatus according to claim 8 , wherein the centering aid part is a component part of an outer container, which is surrounding in a rotationally fixed manner the cleaning head, while being rotatably mounted in the cleaning head, wherein the outer container is optionally provided with at least one wall opening for removal of dirt into a dirt collecting tank. 11. The cleaning device according to claim 1 , wherein in the cleaning head is arranged a central replaceable scissor support, by which the opening width of the scissors is predetermined when the cleaning head is not rotating. 12. The cleaning apparatus according to claim 10 , wherein the cleaning apparatus, in particular the outer container, is connected vertically, in the direction of the introduction of the gas nozzle and in particular resiliently, with a spring, or with air bearings to a stationary base part.