Pendulum acceleration sensor

1. A pendulum acceleration sensor comprising:

• a plate-like pendulum which is comprised of nonmagnetic conductive material and swings about a shaft in a direction parallel to side surfaces of said pendulum in accordance with an acceleration;
  
  at least a pair of detection sensors, arranged to oppose each other with said pendulum interposed therebetween, for detecting a displacement amount of said pendulum as it swings;
  
  a holder unit made of a resin material and including sensor storing members for storing said detection sensors and positioning said detection sensors with respect to said pendulum, and shaft support members, integrally formed with said sensor storing members, for pivotally supporting two ends of the shaft of said pendulum and defining a swing space for said pendulum, said holder unit having a fitting hole formed in a bottom portion thereof to communicate with the swing space defined by the shaft support members, wherein said shaft support members and said sensor storing members are integrally formed with the holder unit, and wherein said shaft support members are comprised of a pair of shaft support portions for respectively supporting two ends of said pendulum, and a pair of support walls integrally having upper ends on which the shaft support portions are integrally formed, the support walls extending vertically upward from said sensor storing members to sandwich the swing space for said pendulum; and
  
  a magnetic damper, arranged in said holder unit to be near a side surface of said pendulum, for generating a magnetic flux in a direction perpendicular to a swinging direction of said pendulum and damping swing of said pendulum, wherein said magnetic damper is fitted and positioned in the swing space through the fitting hole of said holder unit, and further wherein said magnetic damper including a yoke having a U-shaped cross-section and a permanent magnet fixed to one inner surface of the yoke, the yoke being arranged to cause said pendulum to cross a space between the other inner surface of the yoke and the permanent magnet, andwherein said shaft support members have extended portions extended toward the fitting hole and having recess portions in which the yoke and permanent magnet of said magnetic damper are fitted, and said magnetic damper fitted through the fitting hole of said holder unit is positioned and fixed by fitting the yoke and the permanent magnet in the recess portions of the extended portions, andwherein said extended portions of said shaft support members are formed slightly protruding into the swing space of said pendulum, said recess portions are formed outside the extended portions, and said yoke and said permanent magnet of said magnetic damper are positioned and fixed in said recess portions so as to oppose each other with the extended portions interposed therebetween.