Automobile mirror assembly

1. An automobile mirror assembly comprising:

• a mirror which is mountable on an automobile with a support member and a holding member so as to be adjustable in position relative to the automobile;
  
  said mirror having a gradually changing mirror section provided on at least one of side edges of a main mirror section of the mirror, the gradually changing mirror section having a compound curved surfaces comprising;
  
  horizontal curved surfaces and vertical curved surfaces;
  
  wherein curvatures of the horizontal curved surfaces become gradually smaller as the horizontal curved surfaces extend to the edge, and further said curvatures of said horizontal curved surfaces are calculated through the following Equation 1 in respective each positions (x1, x2 . . . xn-1, xn) provided in a horizontal direction; and
  
  wherein the vertical curved surfaces of respective each positions (x1, x2 . . . xn-1, xn) have curvatures which are determined from Equation 2 of hyperbolic curves;
  
  wherein said Equation 1 is as follows;
  
  ##EQU4## where;
  
  A1, A2, . . . An-1, An are arc asphericity factors representing asphericity at respective each positions (x1, x2 . . . xn-1, xn) provided in the horizontal direction,n is any integer,K=0, andC=1/r0, andwherein r0 represents a radius of curvature at a starting position of a gradual change in the gradually changing mirror section;
  
  wherein said Equation 2 is as follows;
  
  
  
  space="preserve" listing-type="equation">x.sup.2 /a.sup.2 -y.sup.2 /b.sup.2=1
  
  space="preserve" listing-type="equation">P(θ
  
  )=P0+(tk·
  
  T)+(dk·
  
  D)
  
  space="preserve" listing-type="equation">tk={P(θ
  
  )-P0}·
  
  T, in units of height,
  
  space="preserve" listing-type="equation">dk={P(θ
  
  )-P0 }·
  
  D, in units of depth,where;
  
  tk is the height of an upper region above the line of the gradually changing mirror section,dk is the depth at the top of the gradually changing mirror section,T is the unit component in height,D is the unit component of depth,a is the distance in the x direction,b is the distance in the V direction,x and y are Cartasian coordinates,P(θ
  
  ) represents an optional position A on a curve extending in the lateral direction at the vertical middle portion of the gradually changing mirror section, andP0 represents the upper and lower ends of the gradually changing mirror section corresponding to the position A.