Device for detecting mechanical decoupling pressure

The invention claimed is: 1. A pressure detection device comprising: a mount whereon a pressure sensor is attached which comprises a membrane which has a surface intended to be subjected to a pressurized fluid and which is so arranged as to elastically deform according to pressure, and means for determining the deformation of the membrane along an axis normal to a mid-plane of the membrane at rest, wherein the membrane is supported by a frame connected to the mount by a mechanical decoupling structure in order to isolate the membrane from stress resulting from a differential thermal expansion between the frame and the mount, and wherein the decoupling structure comprises a plate integral with the frame and elastically deformable arms extending between the plate and the mount so as to transform any differential thermal expansion between the mount and the plate into a resulting movement parallel to the mid-plane, with the plate, the membrane and the frame being made of the same material, with the arms having a curved portion, and with the curved portions being curved in the same direction so that the resulting movement is a rotation around the normal axis. 2. A device according to claim 1 , wherein the arms have a straight portion extending along a direction not intersecting the normal axis, with the straight portions extending symmetrically relative to the normal axis. 3. A device according to claim 2 , wherein the plate has a rectangular perimeter and is accommodated in a recess of the mount having a rectangular perimeter, with the curved portion of each arm being integral with the plate in a vicinity of one of the corners of the plate and the straight portion of each arm being integral with the mount in the vicinity of one of the corners of the recess. 4. A pressure detection device comprising: a mount whereon a pressure sensor is attached which comprises a membrane which has a surface intended to be subjected to a pressurized fluid and which is so arranged as to elastically deform according to pressure; and means for determining the deformation of the membrane along an axis normal to a mid-plane of the membrane at rest, wherein the membrane is supported by a frame connected to the mount by a mechanical decoupling structure in order to isolate the membrane from stress resulting from a differential thermal expansion between the frame and the mount, wherein the decoupling structure comprises a plate integral with the frame and elastically deformable arms extending between the plate and the mount so as to transform any differential thermal expansion between the mount and the plate into a resulting movement parallel to the mid-plane, with the plate, wherein the membrane and the frame are made of a same material, and wherein the mechanical decoupling structure comprises an intermediate frame and the arms comprise a first series of substantially mutually parallel arms connecting the plate to the intermediate frame and a second series of arms which are substantially perpendicular to the arms of the first series and which extend between the intermediate frame and the mount. 5. A pressure detection device comprising: a mount whereon a pressure sensor is attached which comprises a membrane which has a surface intended to be subjected to a pressurized fluid and which is so arranged as to elastically deform according to pressure; and means for determining the deformation of the membrane along an axis normal to a mid-plane of the membrane at rest, wherein the membrane is supported by a frame connected to the mount by a mechanical decoupling structure in order to isolate the membrane from stress resulting from a differential thermal expansion between the frame and the mount, with the membrane and the frame being made of the same material, and wherein the decoupling structure comprises a connection of the frame with the mount on one side only, with the connection being so arranged that the frame extends in a cantilevered position relative to the mount.