Hinge for doors

1. A hinge for doors, comprising:

• a box-shaped body;
  
  a lever pivoting at the box-shaped body at a respective axis of rotation so that the body and the lever can move relative to each other by tilting; and
  
  a spring mechanism housed in the box-shaped body and designed to operate in conjunction with a first portion of the lever to adjust the motion of the lever and the box-shaped body relative to each other, the spring mechanism comprising a contact element for transmitting an elastic reaction force to the first portion of the lever,wherein the first portion of the lever forms a cam and the contact element forms a follower, the cam having a profile such that the elastic reaction force application arm is varied during rotation of the lever about its axis,wherein the hinge has a first angular limit position in which a door connected to the hinge is open, and a second angular limit position in which the door is closed, and is movable between the first and second angular limit positions, andwherein the profile of the cam is such that, when the second, door closed position is almost reached, the elastic reaction force application arm is reduced down to a minimum value coinciding with the second position itself;
  
  and further comprising a guide element forming a guide path, the guide element interacting with the contact element to constrain movement of the contact element to along the guide path;
  
  the guide path having a first portion and a second portion, the first portion corresponding to a range of movement of the hinge between closed and nearly closed, the second portion corresponding to a range of movement of the hinge between nearly closed and nearly open;
  
  wherein the second portion of the guide path is generally aligned with a spring force direction of the spring mechanism and the first portion of the guide path angles away from alignment of the second portion of the guide path such that the first portion of the guide path reduces a compressive effect of the lever on the spring mechanism by causing the spring mechanism to pivot at a greater rate while moving along the spring force direction at a lesser rate, as compared to the second portion of the guide path.