Emergency release for pushout window evacuation

What is claimed is: 1. An emergency escape window for a rotorcraft, comprising a window frame, a window pane secured in the window frame, a plurality of pins connecting the window frame to a fuselage of the rotorcraft, and a release mechanism comprising at least one actuator connected to an actuatable pin and constructed to retract the actuatable pin from the window frame, wherein two pins of the plurality of pins are non-actuatable pins arranged on an upper part of the window frame and defining a horizontal pivot axis, with each non-actuatable pin engaging in a respective opening or recess in the window frame and in a respective opening or recess the fuselage, enabling the window frame to pivot about the two non-actuatable pins about the horizontal pivot axis, wherein the opening or recess in the window frame is shaped as a circular arc extending over less than a half circle and rests on the corresponding non-actuatable pin constructed as an arc-shaped top segment extending over a solid angle of less than a half circle, allowing the window frame to be pivoted both inward and outward with respect to the fuselage and to completely detach from the fuselage upon retraction of the actuatable pin when the window frame is pivoted away from the fuselage part either inward or outward by a predetermined angle. 2. The emergency escape window of claim 1 , wherein the actuator is a shape-memory-alloy (SMA) actuator. 3. The emergency escape window of claim 2 , further comprising thermal insulation disposed around the SMA actuator to maintain the SMA actuator in a defined temperature operating range. 4. The emergency escape window of claim 2 , wherein the actuator is energized by connecting a power source to the actuator. 5. The emergency escape window of claim 4 , wherein the power source is a battery which is connected to the actuator by way of at least one switch. 6. The emergency escape window of claim 5 , wherein the at least one switch is configured to be operated from inside the rotorcraft or from outside the rotorcraft, or both. 7. The emergency escape window of claim 1 , wherein the actuator is selected from the group consisting of solenoid, thermal expansion, pneumatic, hydraulic, piezoelectric, and magnetostrictive actuators. 8. The emergency escape window of claim 1 , wherein all pins of the plurality of pins are connected to respective actuators, and wherein the release mechanism operates to completely release the window frame from the fuselage. 9. The emergency escape window of claim 1 , wherein the window pane is secured in the window frame by a gasket constructed to be pulled out by an occupant of the rotorcraft to release the window pane from the window frame. 10. The emergency escape window of claim 1 , wherein the cup-shaped receptacle on the frame can be detached both inward and outward when the predetermined angle exceeds half the solid angle. 11. A method for releasing an emergency escape window from a fuselage of a rotorcraft, comprising: retracting at least one actuatable pin from a plurality of pins that secures a window frame of the emergency escape window in the fuselage by energizing a respective actuator connected to the at least one actuatable pin, releasing the window frame from the fuselage at least at a location where the at least one actuatable pin engages the window frame; pivoting the window frame about two pins of the plurality of pins which are non-actuatable pins arranged on an upper part of the window frame and define a horizontal pivot axis, with each non-actuatable pin engaging in a respective opening or recess in the window frame and in a respective opening or recess the fuselage, wherein the opening or recess in the window frame is shaped as a circular arc extending over less than a half circle and rests on the corresponding non-actuatable pin constructed as an arc-shaped top segment extending over a solid angle of less than a half circle, so that the window frame can be pivoted both inward and outward with respect to the fuselage, and completely detaching the window frame from the fuselage upon retraction of the actuatable pin when the window frame is pivoted away from the fuselage part either inward or outward by a predetermined angle to create an emergency escape path. 12. The method of claim 11 , wherein the respective actuator is a shape-memory-alloy (SMA) actuator, and wherein energizing comprises operating the respective SMA actuator from battery power by way of at least one switch and operating the at least one switch from inside or outside the rotorcraft, or both, in the event of an emergency. 13. The method of claim 11 , wherein all pins of the plurality of pins are connected to respective actuators for retracting the pins from the window frame, and wherein the window frame can be completely detached from the fuselage upon actuation of the respective actuators. 14. The method of claim 11 , wherein the cup-shaped receptacle on the frame can be detached both inward and outward when the predetermined angle exceeds half the solid angle. 15. A rotorcraft comprising: a fuselage having at least one opening disposed on a side panel of the fuselage; a window frame disposed in the at least one opening; a window pane secured in the window frame; a plurality of pins securing the window frame to the fuselage; and a release mechanism comprising at least one actuator connected to an actuatable pin and constructed to retract the actuatable pin from the window frame, wherein two pins of the plurality of pins are non-actuatable pins arranged on an upper part of the window frame and defining a horizontal pivot axis, with each non-actuatable pin engaging in a respective opening or recess in the window frame and in a respective opening or recess the fuselage, enabling the window frame to pivot about the two non-actuatable pins about the horizontal pivot axis, wherein the opening or recess in the window frame is shaped as a circular arc extending over less than a half circle and rests on the corresponding non-actuatable pin constructed as an arc-shaped top segment extending over a solid angle of less than a half circle, allowing the window frame to be pivoted both inward and outward with respect to the fuselage and to completely detach from the fuselage upon retraction of the actuatable pin when the window frame is pivoted away from the fuselage part either inward or outward by a predetermined angle. 16. The rotorcraft of claim 15 , wherein the actuator is a shape-memory-alloy (SMA) actuator that is actuatable by connecting battery power to the actuator via at least one switch configured to be operated from inside the rotorcraft or from outside the rotorcraft, or both. 17. The rotorcraft of claim 15 , wherein all pins of the plurality of pins are connected to respective actuators, and wherein the release mechanism operates to completely release the window frame from the fuselage. 18. The rotorcraft of claim 15 , wherein the cup-shaped receptacle on the frame can be detached both inward and outward when the predetermined angle exceeds half the solid angle.