Device and method for maintaining parallelism between the two glazings of an aircraft double glazing

The invention claimed is: 1. A device comprising: a double wall including at least one outer wall and one inner wall separated by an intermediary space filled with a gas, the double wall separating an inside environment from an outside environment, and a pressure variation liable to occur between the inside and the outside environments; and means to maintain the outer wall and the inner wall of the double wall substantially parallel independently of the pressure variation, wherein the means to maintain the outer wall and the inner wall of the double wall substantially parallel comprises: measuring means for measurement of at least one parameter comprising a distance directly related to a differential deformation between the inner and outer walls, pressurization means configured for increasing or reducing the pressure in the intermediary space, and control means for controlling the pressurization means according to the at least one parameter measured and according to a previously stored logic. 2. The device according to claim 1 , wherein the at least one parameter further comprises the pressure of the outside environment, the pressure of the inside environment and the pressure in the intermediary space. 3. The device according to claim 1 , wherein the previously stored logic is configured to use a correspondence table stored in a non-volatile electronic memory. 4. The device according to claim 3 , further comprising means for updating the correspondence table. 5. The device according to claim 3 , wherein the previously stored logic comprises one or more default commands to be transmitted to the pressurization means in case of measured pressures not provided for in the correspondence table. 6. The device according to claim 5 , wherein the at least one parameter comprises one or more distance measurements between first and second points or a set of pairs of points, each one located on one of the first and second inner surfaces of the inner and outer walls on a normal common to the walls in the absence of pressure difference. 7. The device according to claim 6 , wherein the distance measuring means between the first and second points are optical means. 8. The device of claim 3 , wherein the correspondence table comprises predetermined values of the at least one parameter associated with the intermediary space as a function of pairs of values of the at least one parameter associated with the outside environment and the inside environment. 9. The device of claim 1 , wherein the control means is configured to receive a first value of the at least one parameter associated with the outside environment beyond the outer wall, a second value of the at least one parameter associated with the inside environment beyond the inner wall, and a third value of the at least one parameter associated with the intermediary space. 10. The device according to claim 9 , wherein the first value of the at least one parameter corresponds to the pressure of the outside environment, the second value corresponds to the pressure of the inside environment and the third value corresponds to the pressure in the intermediary space. 11. A double glazing including at least an outer glazing and an inner glazing separated by an intermediary space filled with a gas, the double glazing separating an inside environment from an outside environment, a pressure variation of predetermined maximum amplitude being liable to occur between the inside and outside environments, and comprising a device, the device comprising means to maintain the outer glazing and the inner glazing of the double glazing substantially parallel independently of the pressure variation, wherein the means to maintain the outer glazing and the inner glazing of the double glazing substantially parallel comprises: measuring means for measurement of at least one parameter comprising a distance directly related to a differential deformation between the inner and outer glazings, pressurization means configured for increasing or reducing the pressure in the intermediary space, and control means for controlling the pressurization means according to the at least one parameter measured and according to a previously stored logic. 12. The double-glazing of claim 11 , wherein the outer glazing has a first thickness, and the inner glazing has a second thickness smaller than the first thickness. 13. The double-glazing of claim 12 , wherein pressurization means is configured for increasing or reducing the pressure in the intermediary space such that a deformation of the inner glazing corresponds to a deformation of the outer glazing.