Method for manufacturing multi-axial inertial force sensor

What is claimed is: 1. A method for manufacturing a multi-axial inertial force sensor that includes a mounting material having an installation surface, a plurality of blocks disposed on the installation surface of the mounting material and having inclined surfaces inclined with respect to the installation surface, and a plurality of sensors disposed on the inclined surfaces of the plurality of blocks, respectively, and configured to detect inertial force corresponding to main-axes, in which the plurality of blocks have a positioning portion that, when the blocks come into contact with at least one or multiple of the plurality of blocks, relatively positions the blocks with respect to a contact partner, and a pedestal is configured with the blocks assembled into a state where the blocks are positioned relative to each other by the positioning portion and a state where the inclined surfaces are oriented in different directions from each other, the method comprising before the pedestal is assembled, an inspection step of inspecting a sensitivity of each of the plurality of sensors disposed in the plurality of blocks respectively, wherein the inspection step includes: a first step of preparing the plurality of blocks in which the plurality of sensors are disposed respectively; a second step of preparing a main-axis tray in which a plurality of main-axis groove portions are formed, the plurality of main-axis groove portions having main-axis positioning surfaces with which the plurality of blocks are in contact for positioning such that a thickness direction of the main-axis tray, corresponding to a depth direction of the main-axis groove portions, is parallel to the main-axes of the sensors; a third step of fitting the plurality of blocks into the plurality of main-axis groove portions of the main-axis tray and bringing the plurality of blocks into contact with the main-axis positioning surfaces of the plurality of main-axis groove portions to dispose the thickness direction of the main-axis tray and the main-axes of the sensors in parallel; a fourth step of preparing an inspection device including a turntable and installing the main-axis tray on the turntable to dispose a central axis of rotation of the turntable and the thickness direction of the main-axis tray in parallel and to dispose the central axis of rotation of the turntable and the main-axes of the plurality of sensors in parallel; and a fifth step of pivoting or swinging the turntable to inspect the sensitivities, in the main-axes, of the plurality of sensors. 2. The method for manufacturing a multi-axial inertial force sensor according to claim 1 , wherein: an axis perpendicular to the main-axis is defined as a first other-axis, and an axis perpendicular to the main-axis and the first other-axis is defined as a second other-axis; in the second step, preparing a first other-axis tray in which a plurality of first other-axis groove portions are formed, and a second other-axis tray in which a plurality of second other-axis groove portions are formed, the plurality of first other-axis groove portions having first other-axis positioning surfaces with which the plurality of blocks are in contact for positioning such that a thickness direction of the first other-axis tray, corresponding to a depth direction of the first other-axis groove portions, is parallel to the first other-axes of the sensors, the plurality of second other-axis groove portions having second other-axis positioning surfaces with which the plurality of blocks are in contact for positioning such that a thickness direction of the second other-axis tray, corresponding to a depth direction of the second other-axis groove portions, is parallel to the second other-axes of the sensors; in the third step, the plurality of blocks are fitted into the plurality of first other-axis groove portions of the first other-axis tray and the plurality of blocks are brought into contact with the first other-axis positioning surfaces of the plurality of first other-axis groove portions to dispose the thickness direction of the first other-axis tray and the first other-axes of the sensors in parallel, and the plurality of blocks are fitted into the plurality of second other-axis groove portions of the second other-axis tray and the plurality of blocks are brought into contact with the second other-axis positioning surfaces of the plurality of second other-axis groove portions to dispose the thickness direction of the second other-axis tray and the second other-axes of the sensors in parallel; in the fourth step, the first other-axis tray is installed on the turntable to dispose the central axis of rotation of the turntable and the thickness direction of the first other-axis tray in parallel and to dispose the central axis of rotation of the turntable and the first other-axes of the plurality of sensors in parallel, and the second other-axis tray is installed on the turntable to dispose the central axis of rotation of the turntable and the thickness direction of the second other-axis tray in parallel and to dispose the central axis of rotation of the turntable and the second other-axes of the plurality of sensors in parallel; in the fifth step, the turntable is pivoted or swung to inspect the sensitivities, in the first other-axes, of the plurality of sensors, and the turntable is pivoted or swung to inspect the sensitivities, in the second other-axes, of the plurality of sensors; further in the third step, the plurality of blocks are fitted into one of the main-axis tray, the first other-axis tray, and the second other-axis tray; in the fourth step, the one of the main-axis tray, the first other-axis tray, and the second other-axis tray, into which the plurality of blocks are fitted, is installed on the turntable; and the third step, the fourth step, and the fifth step are repeated to inspect the sensitivities, in the main-axes, the first other-axes, and the second other-axes, of the plurality of sensors. 3. The method for manufacturing a multi-axial inertial force sensor according to claim 1 , comprising, after the inspection step, an assembly step of disposing the plurality of blocks on the installation surface of the mounting material and disposing the plurality of blocks point-symmetrically with respect to a reference point of the installation surface of the mounting material to assemble the pedestal. 4. The method for manufacturing a multi-axial inertial force sensor according to claim 1 , wherein a direction perpendicular to the inclined surface is defined as a Z-axis, and in the first step, the plurality of sensors are configured as single-axis gyro sensors having the main-axes disposed in parallel to the Z-axis so as to detect, as the inertial force, an angular velocity around the Z-axis. 5. The method for manufacturing a multi-axial inertial force sensor according to claim 1 , wherein a direction perpendicular to the inclined surface is defined as a Z-axis, and in the first step, the plurality of sensors are configured as single-axis acceleration sensors having the main-axes disposed in parallel to the Z-axis so as to detect, as the inertial force, an acceleration in a Z-axis direction. 6. The method for manufacturing a multi-axial inertial force sensor according to claim 1 , wherein in the first step, the plurality of blocks have triangular end surfaces connected to the inclined surfaces and the end surfaces have a right-angled isosceles triangle shape. 7. The method for manufacturing a multi-axial inertial force sensor according to claim 6 , wherein the inclined surface corresponds to an oblique side of the right-angled isosceles triangle. 8. The method for manufacturing a multi-axial inertial force sensor according to claim 1 ,