Aluminum alloy brazing sheet and method for producing same

1 . An aluminum alloy brazing sheet having a core material comprising an aluminum alloy, an Al—Si based brazing filler metal clad on one surface of the core material and a sacrificial anode material clad on the other surface of the core material, wherein the core material comprises an aluminum alloy comprising Si:0.2-1.0 mass %, Fe:0.05-0.40 mass %, Cu:0.4-1.2 mass %, Mn:0.3 to 1.8 mass %, one, two or more selected from Ti:0.02-0.30 mass %, Zr:0.02-0.30 mass %, Cr:0.02-0.30 mass % and V:0.02-0.30 mass % and a balance of Al and unavoidable impurities, the sacrificial anode material comprises an aluminum alloy comprising Si:0.05-0.50 mass %, Fe:0.01-0.30 mass %, Mg:1.0-3.0 mass %, Zn:2.0-6.0 mass % and a balance of Al and unavoidable impurities, in a cross section parallel to the longitudinal direction and along the thickness direction, the interface between the core material and the sacrificial anode material includes 300 pieces/mm or less of an Al—Mg—Cu based intermetallic compound, and the core material and the sacrificial anode material have an unrecrystallized structure. 2 . The aluminum alloy brazing sheet according to claim 1 , wherein the core material further comprises Mg:0.05-0.60 mass %. 3 . The aluminum alloy brazing sheet according to claim 1 , wherein the sacrificial anode material further comprises at least one of Ti:0.02-0.30% and V:0.02-0.30%. 4 . The aluminum alloy brazing sheet according to claim 1 , wherein the 0.2% proof stress is 140-200 N/mm 2 , and the elongation percentage is 5% or more. 5 . A method for producing the aluminum alloy brazing sheet according to claim 1 , comprising a step of casting the aluminum alloys for the core material, the sacrificial anode material and the brazing filler metal, respectively, a cladding step of cladding the sacrificial anode material on one surface of the core material and cladding the brazing filler metal on the other surface, a step of heating a clad material, a hot rolling step, a cold rolling step and an annealing step, wherein the annealing step includes both of intermediate annealing during the cold rolling step and final annealing after the cold rolling step, or only of the final annealing, a finish temperature of the hot rolling step is 200-320° C., and annealing temperatures of the intermediate annealing and the final annealing are 230-320° C. in the case of batch annealing and are 250-400° C. in the case of continuous annealing. 6 . The method for producing the aluminum alloy brazing sheet according to claim 5 , wherein the annealing of the intermediate annealing and the final annealing is batch annealing. 7 . The method for producing the aluminum alloy brazing sheet according to claim 5 , wherein the annealing holding time for the batch annealing is 1-10 hours. 8 . The method for producing the aluminum alloy brazing sheet according to claim 5 , wherein the annealing holding time for the continuous annealing is 0-50 seconds. 9 . The method for producing the aluminum alloy brazing sheet according to claim 5 , further comprising a homogenization treatment step of homogenizing an ingot of the core material at 550° C. or lower. 10 . The method for producing the aluminum alloy brazing sheet according to claim 5 , wherein the clad material is heated at 400-550° C. for 1 to 10 hours before the hot rolling step. 11 . The method for producing the aluminum alloy brazing sheet according to claim 5 , wherein a start temperature of the hot rolling step is 400-530° C.