Device for monitoring the tightness of sealing components

The invention claimed is: 1. A device ( 4 ) for checking the tightness of a sealing component, such as a membrane ( 1 ) or a multilayer, for a fluid storage tank, wherein the checking device ( 4 ) comprises a box ( 5 ) comprising: a peripheral partition ( 7 ), a cover ( 6 ) made of a transparent material, the cover ( 6 ) being connected to the peripheral partition ( 7 ) such that the cover ( 6 ) and the peripheral partition ( 7 ) are able to define, with the sealing component ( 1 ), an inner chamber ( 13 ), the peripheral partition ( 7 ) comprising: an inner peripheral wall ( 9 ) having a bottom end equipped with an inner peripheral seal ( 11 ) intended to be positioned against the sealing component ( 1 ) all around the inner chamber ( 13 ); and an outer peripheral wall ( 10 ) positioned outside the inner peripheral wall ( 9 ) so as to define, between the outer peripheral wall ( 10 ) and the inner peripheral wall ( 9 ), an intermediate chamber ( 14 ) extending exclusively in the peripheral partition ( 7 ) all around the inner chamber ( 13 ), the outer peripheral wall having a bottom end equipped with an outer peripheral seal ( 12 ) intended to be positioned against the sealing component ( 1 ) all around the inner peripheral seal ( 11 ); a depressurizing device ( 17 ) which is connected to the inner chamber ( 13 ) and to the intermediate chamber ( 14 ) and is configured to depressurize said inner chamber ( 13 ) and said intermediate chamber ( 14 ), wherein the checking device ( 4 ) comprises an air evacuation pipe ( 15 ) which is connected, on one side, to a depressurizing member ( 18 ) of the depressurizing device ( 17 ) and, on the other side, to the intermediate chamber ( 14 ) so as to set the intermediate chamber ( 14 ) at a pressure P 1 lower than atmospheric pressure, the inner peripheral wall ( 9 ) comprising a communication channel ( 20 ) fluidically connecting the inner chamber ( 13 ) and the intermediate chamber ( 14 ). 2. The checking device ( 4 ) as claimed in claim 1 , wherein the peripheral partition ( 7 ) comprises a top portion ( 8 ) connecting the outer peripheral wall ( 10 ) and the inner peripheral wall ( 9 ) to the cover ( 6 ) and tightly covering the intermediate chamber ( 14 ). 3. The checking device ( 4 ) as claimed in claim 2 , wherein the ratio between a height of the inner peripheral wall ( 9 ) and a height of the peripheral partition ( 7 ) is between 5 and 70%, preferably between 15% and 50%. 4. The checking device ( 4 ) as claimed claim 1 , wherein the checking device ( 4 ) comprises a pressure regulator ( 21 ) placed at the communication channel ( 20 ), said pressure regulator ( 21 ) being configured so that, when the depressurizing device ( 17 ) is started up, the inner chamber ( 13 ) is set to a pressure P 2 lower than atmospheric pressure and higher than the pressure P 1 . 5. The checking device ( 4 ) as claimed in claim 1 , wherein the checking device ( 4 ) comprises: a carrying handle ( 23 ) fixed to the box ( 5 ); a control member ( 24 ) that can be manually actuated to produce a control signal ( 26 ), the control member ( 24 ) being positioned on or in immediate proximity to the carrying handle ( 23 ) so as to be able to be actuated by a hand of a user holding the carrying handle ( 23 ), and wherein the depressurizing device ( 17 ) comprises a controlled valve ( 27 ) that can be switched over to an open state to connect the inner chamber ( 13 ) and the intermediate chamber ( 14 ) to the depressurizing member ( 18 ) and a closed state to isolate the inner chamber ( 13 ) and the intermediate chamber ( 14 ) from the depressurizing member ( 18 ), the checking device ( 4 ) comprising a control unit ( 28 ) configured to switch over the controlled valve ( 27 ) in response to the control signal ( 26 ). 6. The checking device ( 4 ) as claimed in claim 5 , wherein the control unit ( 28 ) is configured to switch over the control valve ( 27 ) alternately between the open state and the closed state in response to the control signal. 7. The checking device ( 4 ) as claimed in claim 5 , wherein the control member is a first control member ( 24 ) that can be actuated manually to produce a first control signal and the checking device further comprises a second control member ( 25 ) that can be manually actuated to produce a second control signal, the control unit ( 28 ) being configured to switch over the controlled valve ( 27 ) to the open state in response to the first control signal and to the closed state in response to the second control signal. 8. The checking device ( 4 ) as claimed in claim 7 , wherein the carrying handle is a first carrying handle ( 23 ) and the checking device ( 4 ) further comprises a second carrying handle ( 23 ), the first carrying handle and the second carrying handle ( 23 ) being positioned on the perimeter of the box ( 5 ) opposite one another. 9. The checking device ( 4 ) as claimed in claim 1 , wherein the inner peripheral seal ( 11 ) and/or the outer peripheral seal ( 12 ) has a seal end ( 30 ) forming a loop all around the inner chamber ( 13 ) and intended to be positioned against the sealing component ( 1 ), the seal end ( 30 ) all around the inner chamber being situated in a plane, and the cover being formed parallel to said plane so as to form a tightness checking device ( 4 ) for a flat zone. 10. The checking device ( 4 ) as claimed in claim 1 , wherein the inner peripheral seal ( 11 ) and/or the outer peripheral seal ( 12 ) has a seal end ( 30 ) forming a loop all around the inner chamber and intended to be positioned against the sealing component ( 1 ), a first part ( 31 ) of the seal end being situated in a first plane P 1 and a second part ( 32 ) of the seal end being situated in a second plane P 2 that is inclined with respect to the first plane, and the cover being formed in a plane that is inclined with respect to the first plane and to the second plane so as to form a tightness checking device ( 4 ) for a corner zone. 11. The checking device ( 4 ) as claimed in claim 10 , wherein the checking device has a longitudinal dimension between 290 and 432 mm, preferably equal to 320 mm or 430 mm, the longitudinal dimension being intended to be parallel to a tank edge during use. 12. The checking device ( 4 ) as claimed in claim 1 , wherein the checking device ( 4 ) comprises at least one lighting device ( 22 ) fixed to the peripheral partition ( 7 ) and configured to light the inner chamber ( 13 ). 13. The checking device ( 4 ) as claimed in claim 1 , wherein the checking device ( 4 ) comprises a safety valve ( 29 ) connected to the intermediate chamber ( 14 ) and that can be switched over to a closed state when the pressure in the intermediate chamber ( 14 ) is higher than or equal to a pressure Pmin and an open state when the pressure in the intermediate chamber ( 14 ) is lower than the pressure Pmin to connect the intermediate chamber ( 14 ) to the outside. 14. A checking method performed using a tightness checking device ( 4 ) as claimed in claim 1 on a sealing component ( 1 ) of a fluid storage tank, wherein the method comprises the following steps: applying water containing surface active agents or injecting a colored gas, respectively on or under a portion to be tested ( 2 ) of the sealing component ( 1 ), placing the tightness checking device ( 4 ) on the portion to be tested ( 2 ) so that the outer peripheral seal ( 12 ) and the inner peripheral seal ( 11 ) are in contact with the portion to be tested ( 2 ), depressurizing the inner chamber ( 13 ) and the intermediate chamber ( 14 ) by means of the depressurizing device ( 17 ), observing, through the transparent co