All-steel fitting

The invention claimed is: 1. Method for the production of an all-steel card clothing for carding machines, wherein the method comprises: providing a wire ( 11 ) having a base section ( 17 ) and a wall section ( 23 ) that extends away from the base section ( 17 ) and has a lower thickness (DIS) than said base section ( 17 ), applying recesses ( 14 ) in the wall section ( 23 ) of raw material wire ( 12 ) in order to form teeth ( 15 ), in feed-through mode, heating at least the base section ( 17 ) of the wire ( 11 ) to a first temperature (t 1 ) by at least one first inductor ( 16 ) at a first frequency (f 1 ), in feed-through mode, at least sectionwise induction heating the wall section ( 23 ) of the wire ( 11 ), said wire ( 11 ) having been preheated at least on the base section ( 17 ), by at least one second inductor ( 18 ) operates at a second frequency (f 2 ) to a second temperature (t 2 ), wherein the second frequency (f 2 ) that is higher than the first frequency (f 1 ), wherein the second temperature (t 2 ) is higher than the first temperature (t 1 ), in feed-through mode, quenching at least the wall section ( 23 ) of the wire ( 11 ) with a cooling medium. 2. Method according to claim 1 , further comprising producing the recesses ( 14 ) in feed-through mode by a punching process. 3. Method according to claim 1 , wherein the first temperature (f 1 ) is below an austenitizing temperature range (tA) and the second temperature is within the austenitizing temperature range (tA). 4. Method according to claim 1 , wherein the second frequency (f 2 ) is at least five times that of the first frequency (f 1 ). 5. Method according to claim 1 , wherein the first frequency (f 1 ) is at most 5 MHz and the second frequency is at least 10 MHz. 6. Method according to claim 1 , further comprising, after quenching, passing the wire ( 11 ) through a third inductor ( 29 ) that is operated at a third frequency (f 3 ) that is lower than the second frequency (f 2 ) in order to heat the wire ( 11 ) to a third temperature that is at least lower than the second temperature (t 2 ). 7. Method according to claim 1 , wherein at least the induction heating at the second frequency (f 2 ) to the second temperature (t 2 ) takes place under protective gas. 8. Method according to claim 1 , further comprising brushing the wire ( 11 ) at least on one lateral surface. 9. All-steel card clothing comprising a wire ( 11 ) defining a longitudinal direction (L), said wire having a base section ( 17 ) and a wall section ( 23 ) with teeth ( 15 ) having a tooth height (H 15 ), said wall section having at least one section ( 19 ) having increased hardness and extending away from the base section ( 17 ), wherein the base section ( 17 ) has a greater thickness (D 17 ) than the wall section ( 23 ), and the wall section ( 23 ) has a boundary following a straight line defining a transition zone ( 24 ) extending parallel to the longitudinal direction (L), in which transition zone ( 24 ) the at least one section ( 19 ) having the increased hardness begins; wherein the wall section ( 23 ) has teeth ( 15 ) between which one tooth gullet ( 21 ), respectively, is formed, and that the transition zone ( 24 ) extends below said tooth gullet ( 21 ), wherein the transition zone ( 24 ) is formed at least partially within the teeth; wherein the transition zone ( 24 ) has a width in a direction of the tooth height of at most 0.5 mm. 10. All-steel card clothing according to claim 9 , wherein each tooth ( 15 ) has a tooth tip ( 20 ) and a distance of the transition zone ( 24 ) from the tooth tip ( 20 ) is at least 70% of the tooth height (H 15 ). 11. All-steel card clothing according to claim 9 , wherein the wall section ( 23 ) has a cross-section that is configured trapezoidally or triangularly tapering away from the base section ( 17 ). 12. All-steel card clothing according to claim 9 , wherein each tooth ( 15 ) has a tooth tip ( 20 ) and a straight tooth back ( 30 ), said tooth back extending up to the tooth tip ( 20 ). 13. All-steel card clothing according to claim 9 , wherein the all-steel card clothing is largely metallic bright and free of scales, respectively, in which case said card clothing is free of traces of a chemical burr removal or subsequent processing, as well as free of traces of any mechanical finishing. 14. All-steel card clothing according to claim 9 , wherein the transition zone ( 24 ) has a width in a direction of the tooth height of at most 20% of the tooth height. 15. All-steel card clothing comprising a wire ( 11 ) defining a longitudinal direction (L), said wire having a base section ( 17 ) and a wall section ( 23 ) with teeth ( 15 ) having a tooth height (H 15 ), said wall section having at least one section ( 19 ) having increased hardness and extending away from the base section ( 17 ), wherein the base section ( 17 ) has a greater thickness (D 17 ) than the wall section ( 23 ), and the wall section ( 23 ) has a boundary following a straight line defining a transition zone ( 24 ) extending parallel to the longitudinal direction (L), in which transition zone ( 24 ) the at least one section ( 19 ) having the increased hardness begins; wherein the wall section ( 23 ) has teeth ( 15 ) between which one tooth gullet ( 21 ), respectively, is formed, and that the transition zone ( 24 ) extends below said tooth gullet ( 21 ), wherein the transition zone ( 24 ) is formed at least partially within the teeth; wherein the transition zone ( 24 ) has a width in a direction of the tooth height of at most 20% of the tooth height. 16. All-steel card clothing comprising a wire ( 11 ) defining a longitudinal direction (L), said wire having a base section ( 17 ) and a wall section ( 23 ) with teeth ( 15 ) having a tooth height (H 15 ), said wall section having at least one section ( 19 ) having increased hardness and extending away from the base section ( 17 ), wherein the base section ( 17 ) has a greater thickness (D 17 ) than the wall section ( 23 ), and the wall section ( 23 ) has a boundary following a straight line defining a transition zone ( 24 ) extending parallel to the longitudinal direction (L), in which transition zone ( 24 ) the at least one section ( 19 ) having the increased hardness begins; wherein the wall section ( 23 ) has teeth ( 15 ) between which one tooth gullet ( 21 ), respectively, is formed, and that the transition zone ( 24 ) extends below said tooth gullet ( 21 ), wherein the transition zone ( 24 ) is formed at least partially within the teeth and is delimited along curved lines in a direction transverse to the longitudinal direction.