Calcined ferrite, and sintered ferrite magnet and its production method

What is claimed is: 1 . A calcined ferrite having a composition of metal elements of Ca, R, A, Fe and Co, which is represented by the general formula of Ca 1-x-y R x A y Fe 2n-z Co z , wherein R is at least one of rare earth elements indispensably including La; A is Sr and/or Ba; x, y, z and n represent the atomic ratios of Ca, R, A, Fe and Co; 2n represents a molar ratio expressed by 2n=(Fe+Co)/(Ca+R+A); and x, y, z and n meet the following conditions: 0.30≤(1-x-y)≤0.55, 0.25≤x≤0.35, 0.15≤y≤0.40, (1-x-y)>y, 0<z≤0.18, and 9.0≤(2n-z)<11.0. 2 . The calcined ferrite according to claim 1 , wherein said atomic ratio (1-x-y) meets 0.40≤(1-x-y)≤0.50. 3 . The calcined ferrite according to claim 1 , wherein said atomic ratio y meets 0.20≤y≤0.35. 4 . The calcined ferrite according to claim 1 , wherein said atomic ratio z meets 0<z≤0.17. 5 . The calcined ferrite according to claim 1 , wherein said atomic ratio (2n-z) meets 9.0≤(2n-z)≤10.5. 6 . The calcined ferrite according to claim 5 , wherein said atomic ratio (2n-z) meets 9.0≤(2n-z)≤10.0. 7 . A sintered ferrite magnet having a composition of metal elements of Ca, R, A, Fe and Co, which is represented by the general formula of Ca 1-x-y R x A y Fe 2n-z Co z , wherein R is at least one of rare earth elements indispensably including La; A is Sr and/or Ba; x, y, z and n represent the atomic ratios of Ca, R, A, Fe and Co; 2n represents a molar ratio expressed by 2n=(Fe+Co)/(Ca+R+A); and x, y, z and n meet the following conditions: 0.15≤x≤0.35, 0.05≤y≤0.40, (1-x-y)>y, 0<z≤0.18, and 7.5≤(2n-z)<11.0. 8 . The sintered ferrite magnet according to claim 7 , wherein said atomic ratio (1-x-y) meets 0.40≤(1-x-y)≤0.50. 9 . The sintered ferrite magnet according to claim 7 , wherein said atomic ratio y meets 0.20≤y≤0.35. 10 . The sintered ferrite magnet according to claim 7 , wherein said atomic ratio z meets 0<z≤0.17. 11 . The sintered ferrite magnet according to claim 7 , wherein said atomic ratio (2n-z) meets 7.5≤(2n-z)≤10.5. 12 . The sintered ferrite magnet according to claim 11 , wherein said atomic ratio (2n-z) meets 7.5≤(2n-z)≤10.0. 13 . The sintered ferrite magnet according to claim 7 , wherein said sintered ferrite magnet further contains more than 0% and 1.5% or less by mass of Si as SiO 2 . 14 . A method for producing the sintered ferrite magnet recited in claim 7 , comprising the steps of mixing raw material powders containing metal elements of Ca, R, A, Fe and Co to prepare a raw material powder mixture having a metal element composition represented by the general formula of Ca 1-x-y R x A y Fe 2n-z Co z , wherein R is at least one of rare earth elements indispensably including La; A is Sr and/or Ba; x, y, z and n represent the atomic ratios of Ca, R, A, Fe and Co; 2n represents a molar ratio expressed by 2n=(Fe+Co)/(Ca+R+A); and x, y, z and n meet the following conditions: 0.30≤(1-x-y)≤0.55, 0.25≤x≤0.35, 0.15≤y≤0.40, (1-x-y)>y, 0<z≤0.18, and 9.0≤2n-z<11.0, calcining the resultant raw material powder mixture, pulverizing the resultant calcined body, molding the resultant calcined body powder, and sintering the resultant green body. 15 . The method for producing a sintered ferrite magnet according to claim 14 , wherein (a) more than 0% and 1.5% or less by mass of SiO 2 , or (b) more than 0% and 1.5% or less by mass of SiO 2 and more than 0% and 1.5% or less by mass of CaCO 3 as CaO, are added to 100% by mass of said calcined body or calcined body powder, after said calcining step and before said molding step.