Core for torque detection sensor and torque detection sensor

What is claimed is: 1 . A core for a torque detection sensor that measures variation of magnetic permeability by variation of coil impedance in magnetic circuits formed between a core and an object to be detected by energizing coils wound around teeth provided to protrude from the annular core provided around the object to be detected at plural places, comprising: a first laminated core in which first teeth are provided to protrude in a radial direction at plural places from an annular first core back formed by laminating a plurality of magnetic sheet materials; and a second laminated core in which second teeth are provided to protrude in the radial direction at plural places from an annular second core back formed by laminating a plurality of magnetic sheet materials, wherein the first laminated core and the second laminated core are stacked so that the first teeth and the second teeth are in staggered arrangement in a circumferential direction. 2 . The core for the torque detection sensor according to claim 1 , wherein the first teeth and the second teeth are provided in staggered arrangement with a phase difference having an inclination of 45 degrees with respect to the circumferential direction. 3 . The core for the torque detection sensor according to claim 1 , wherein magnetic-flux action surfaces of the first teeth and the second teeth which face the object to be detected are formed to be wider in width. 4 . The core for the torque detection sensor according to claim 1 , wherein the first laminated core and the second laminated core are stacked through an annular intermediate core formed of a magnetic material. 5 . The core for the torque detection sensor according to claim 1 , wherein an outer diameter of the annular intermediate core formed of the magnetic material is larger than those of the first laminated core and the second laminated core, and the first laminated core and the second laminated core are concentrically fitted from both end openings of the intermediate core to be integrally assembled. 6 . The core for the torque detection sensor according to claim 1 , wherein the first teeth are assembled so that engaging portions are fitted in an axial center direction into dovetail grooves provided on a peripheral surface of the first core back, and the second teeth are assembled so that engaging portions are fitted in the axial center direction into dovetail grooves provided on a peripheral surface of the second core back. 7 . The core for the torque detection sensor according to claim 1 , wherein the first teeth are assembled so that projections provided on a peripheral surface of the first core back are fitted in an axial center direction into recesses provided at end portions in the radial direction, and the second teeth are assembled so that projections provided on a peripheral surface of the second core back are fitted in the axial center direction into recesses provided at end portions in the radial direction. 8 . A torque detection sensor comprising: the core for the torque detection sensor according to claim 1 ; and a plurality of energizing circuits in which first coils and second coils which are wound in different directions around the first teeth and the second teeth are connected in series. 9 . The torque detection sensor according to claim 8 , wherein the sensor is a self-excitation sensor that measures variation of magnetic permeability by variation of coil impedance in magnetic circuits formed between a core and an object to be detected by energizing the first coils wound around the first teeth and the second coils wound around the second teeth provided to protrude in the core for the torque detection sensor in staggered arrangement.