Door closer

Thus, having described the invention, what is claimed is: 1. A door closer comprising: an electric combination motor and generator configured to be operatively connected to a door movable between a closed position and an open position, the electric combination motor and generator having a drive shaft, wherein the drive shaft of the electric combination motor and generator rotates when the door moves in the direction of opening and in the direction of closing, the combination motor and generator being configured to apply force to move the door in the direction of closing in response to the rotation of the drive shaft of the electric combination motor and generator; a speed sensor for determining closing speed of the door; a timer for determining closing time of the door; an electrical energy storage element connected to the combination motor and generator and configured to store electrical energy generated by the electric combination motor and generator as the door moves in the direction of opening or closing; and a combination motor and generator controller connected to the speed sensor, timer and combination motor and generator, the controller receiving input from the speed sensor and timer and controlling operation of the electric combination motor and generator, the controller determining whether the door is closing within a predetermined acceptable closing time or with a predetermined acceptable closing speed, and using determined door closing time or door closing speed as the door continues to move, determining as the door continues to move whether a motor assist is needed to complete closing of the door, and thereafter causing the electric combination motor and generator to be powered by electrical energy generated by the electric combination motor and generator and stored in the electrical energy storage element to apply force to assist the door in closing to the closed position. 2. The door closer of claim 1 further including a position sensor connected to the combination motor and generator controller for determining position of the door between the closed and open positions. 3. The door closer of claim 2 wherein the controller causes the electric combination motor and generator to apply force to assist the door in closing to the closed position based on the position sensor indicating that the door is in the vicinity of the closed position. 4. The door closer of claim 2 wherein the position sensor determines the position of the door only in the vicinity of the closed position. 5. The door closer of claim 2 , wherein the door position sensor is a potentiometer. 6. The door closer of claim 2 , wherein the door position sensor is a proximity switch. 7. The door closer of claim 6 , wherein the proximity switch indicates if the door is in the closed position. 8. The door closer of claim 2 , wherein the position sensor operates by sensing proximity of a magnet. 9. The door closer of claim 2 , wherein the position sensor comprises a Hall effect device. 10. The door closer of claim 1 , further comprising a spring adapted to bias the door toward the closed position. 11. The door closer of claim 1 , wherein when the door moves in the direction of closing and the electric combination motor and generator is not powered, the electric combination motor and generator acts as a generator and generated power is stored in the electrical energy storage element. 12. The door closer of claim 11 , wherein when the door moves in the direction of closing, the electric combination motor and generator acts as a brake on the rate of closing of the door. 13. The door closer of claim 1 , wherein when the door moves in the direction of opening, the electric combination motor and generator is not powered, and the electric combination motor and generator acts as a generator and generated power is stored in the energy storage element. 14. The door closer of claim 13 , wherein when a predetermined angle of door opening is reached, load on the combination motor and generator is increased to resist opening further. 15. The door closer of claim 13 , wherein the load on the combination motor and generator is varied to resist the opening of the door to prevent the door from opening at an excessive rate. 16. The door closer of claim 15 wherein the door excessive rate is defined as moving above a predetermined speed. 17. The door closer of claim 15 , wherein the door closer includes a spring adapted to bias the door toward the closed position, and wherein the door excessive rate consists of the door moving at a rate such that the kinetic energy of the door is greater than the energy that will be absorbed by the spring and losses as the door travels to a predetermined point. 18. The door closer of claim 1 , further including a potentiometer that controls electrical resistance to control the rotation of the electric combination motor and generator and slow the closing speed of the door. 19. The door closer of claim 18 , wherein the combination motor and generator controller includes a processor programmed to control the potentiometer or other means for varying load on the combination motor and generator to automatically adjust the closing speed of the door. 20. The door closer of claim 1 , further including one or more motor control circuits operatively connected to the controller to permit the controller to control current in the combination motor and generator. 21. The door closer of claim 20 , wherein the motor control circuits include high and low gates in a half H-bridge configuration. 22. The door closer of claim 20 , wherein the motor control circuits include high and low gates in a full H-bridge configuration. 23. The door closer of claim 1 further including a memory operatively connected to the controller, wherein the controller receives data from the memory to determine that a motor assist is needed and control the electric combination motor and generator to exert a closing force on the door. 24. The door closer of claim 1 wherein the electric combination motor and generator is powered exclusively by electrical energy generated by the electric combination motor and generator and stored in the electrical energy storage element. 25. The door closer of claim 1 , wherein the control of the combination motor and generator to exert a closing force on the door is accomplished by applying a voltage to the motor. 26. The door closer of claim 1 , wherein the controller further detects as the door is closing a force pushing the door open and thereafter discontinues application of power to the electric combination motor and generator to close the door. 27. The door closer of claim 26 , wherein the force pushing the door open is detected by the door speed sensor or by a door position sensor. 28. A method of operating a door closer using an electric combination motor and generator operatively connected to a door movable between a closed position and an open position, the method comprising: storing electrical energy generated by the electric combination motor and generator as the door moves in the direction of opening or closing; determining whether the door is closing within a predetermined acceptable closing time or with a predetermined acceptable closing speed as the door continues to move; using determined door closing time or door closing speed, determining as the door continues to move that