Sound generator

The invention claimed is: 1. A sound generator configured to emit sound, comprising: a rigid element enclosing a plurality of air compartments, the rigid element comprising: a back side comprising apertures, and a front side that is closed, an air space, within the sound generator, separated from the plurality of air compartments by the back side of the rigid element and external to the rigid element; a rigid housing comprising a rigid back part that extends opposite the back side of the rigid element; a support structure configured to flexibly hold the rigid element in relation to the rigid housing; and an actuator configured to drive the rigid element to perform a piston type of movement, in a transverse direction with respect to the back side and front side surfaces of the rigid element, during operation to generate sound; wherein the actuator comprises: a first part fixed to the rigid element, and a second part fixed to the rigid housing, wherein the first part and the second part are configured to move relative to one another, wherein the air space is located between the rigid back part of the rigid housing and the back side of the rigid element so that the rigid housing and the rigid element are spaced-apart, wherein the rigid element is movable in relation to the rigid back part of the rigid housing by flexing the support structure during operation of the actuator, wherein the apertures are in air connection with the air space along the back side of the rigid element, and wherein the support structure provides a seal around a perimeter of the rigid element. 2. The sound generator according to claim 1 , wherein the air space occupies a volume that is smaller than an overall internal volume of the rigid element. 3. The sound generator according to claim 1 , wherein the apertures are arranged to provide air connections to the plurality of air compartments of the rigid element. 4. The sound generator according to claim 1 , wherein a front face of the rigid back part and the back side of the rigid element extend in parallel with one another. 5. The sound generator according to claim 1 , wherein the at least one actuator at least partly extends in the rigid element. 6. The sound generator according to claim 1 , wherein the rigid element has a sandwich structure. 7. The sound generator according to claim 1 , wherein the rigid element has a honeycomb cell structure. 8. The sound generator according to claim 1 , wherein a thickness of each air compartment of the rigid element, measured from the front side to the back side, is larger than approximately 1 mm. 9. The sound generator according to claim 8 , wherein the thickness of each air compartment of the rigid element, measured from the front side to the back side, is larger than 1 cm. 10. The sound generator of claim 8 wherein the thickness of each air compartment is in a range of about 1-50 mm. 11. The sound generator according to claim 1 , wherein the front and back side of the rigid element are substantially parallel. 12. The sound generator according to claim 1 , wherein the rigid element is substantially flat and has a thickness that is significantly smaller than longitudinal dimensions of the element. 13. The sound generator according claim 1 , further comprising one or more detectors to detect a position or orientation of the rigid element. 14. The sound generator of claim 13 wherein the detectors are used with actuators to counteract undesired displacements or misalignments of the rigid element. 15. The sound generator according to claim 1 , further comprising one or more frequency response adjusters to adjust frequency response characteristics of the rigid element. 16. The sound generator according to claim 1 , wherein the sound generator is provided with at least one piezoelectric element configured to actuate the rigid element for the generation of the sound, wherein the actuator is coupled to the rigid element via a respective flexible coupling structure, wherein the rigid element includes an aperture that is closed by said coupling structure. 17. The sound generator of claim 1 wherein the sound generator is a loudspeaker. 18. The sound generator of claim 1 wherein the at least one actuator comprises one or more electromagnetic actuators. 19. The sound generator of claim 1 wherein the at least one actuator comprises one or more piezoelectric elements. 20. The sound generator according to claim 1 , wherein the back side of the rigid element comprises a perforated back plate integrally connected to a cell structure providing the plurality of compartments, the perforated back plate providing rigidity of the rigid element. 21. The sound generator according to claim 1 , wherein the support structure provides an air-tight seal between the rigid element and the rigid housing. 22. A sound generator configured to emit sound, comprising: a rigid element enclosing a plurality of air compartments, the rigid element comprising: a back side comprising apertures, and a front side that is closed, an air space, within the sound generator, separated from the plurality of air compartments by the back side of the rigid element and external to the rigid element; a rigid housing comprising a rigid back part that extends opposite the back side of the rigid element; a support structure configured to flexibly hold the rigid element in relation to the rigid housing; and an actuator configured to drive the rigid element to perform a piston type of movement, in a transverse direction with respect to the back side and front side surfaces of the rigid element, during operation to generate sound; wherein the actuator comprises: a first part fixed to the rigid element, and a second part fixed to the rigid housing, wherein the first part and the second part are configured to move relative to one another, wherein the air space is located between the rigid back part of the rigid housing and the back side of the rigid element so that the rigid housing and the rigid element are spaced-apart, wherein the rigid element is movable in relation to the rigid back part of the rigid housing by flexing the support structure during operation of the actuator, wherein the apertures are in air connection with the air space along the back side of the rigid element, and wherein the rigid housing comprises: a rigid planar back part extending parallel to a planer surface of the rigid element; and a sidewall protruding from a planar surface of the rigid planar back part, wherein the support member couples the sidewall to an edge of the rigid element. 23. The sound generator according to claim 22 , wherein a front face of the rigid back part and the back side of the rigid element extend in parallel with one another. 24. The sound generator according to claim 22 , wherein the back side of the rigid element comprises a perforated back plate integrally connected to a cell structure providing the plurality of compartments, the perforated back plate providing rigidity of the rigid element.