Pressure sensor including overmolded element(s) for securing positioning

The invention claimed is: 1. A pressure-sensor device having: a component sensitive to pressure, comprising a sensor body, with an elastically deformable membrane part, and at least one detection element for detecting a deformation of the membrane part; a structure for housing or supporting the pressure-sensitive component, having at least one passageway for a fluid the pressure of which is to be detected, the housing or supporting structure comprising a supporting body with respect to which the sensor body is positioned in such a way that its membrane part is exposed to the fluid coming out of the passageway, the supporting body having a hydraulic-connection portion and a duct that extends from the hydraulic-connection portion; at least one elastically deformable body, made with one or more elastically deformable or compressible materials, comprising at least one compressible compensation element, configured for compensating any possible variations in volume of the fluid; wherein the at least one elastically deformable body is overmoulded to the housing or supporting structure; and wherein the duct has an intermediate transverse wall and comprises, downstream of the transverse wall, a housing portion of the supporting body, partially housed within which is said at least one compressible compensation element that extends in part on the outside of the duct or of the supporting body. 2. The device according to claim 1 , wherein the sensor body has a blind cavity with a bottom surface that belongs to the membrane part, and a peripheral surface with at least one intermediate step, to define a lower cavity portion below the intermediate step, which is wider, and an upper cavity portion above the intermediate step, which is less wide, at least part of said at least one compressible compensation element extending within the upper cavity portion above the intermediate step. 3. The device according to claim 1 , wherein the elastically deformable body also defines at least one from among: an internal sealing element, set between the supporting body and the sensor body, within a cavity of the sensor body, designed to provide a radial seal between the supporting body and the sensor body, the internal sealing element having an outer diameter or perimetric surface greater than an outer diameter or perimetric surface of the at least one compressible compensation element; a supporting element, set between the supporting body and the sensor body, on the outside of a cavity of the sensor body, designed to provide an elastic support and/or an axial seal between the supporting body and the sensor body, the supporting element having an outer diameter or perimetric surface greater than an outer diameter or perimetric surface of the at least one compressible compensation element; an external sealing element, set on the outside of the supporting body and having an outer diameter or perimetric surface greater than an outer diameter or perimetric surface of the at least one compressible compensation element. 4. The device according to claim 3 , wherein the supporting element is set between an upper face of the supporting body and a lower face of the sensor body. 5. The device according to claim 3 , wherein the supporting body has at least one passage that extends from the duct in a direction at least in part transverse with respect to the duct itself, the passage or each passage being occupied by a respective connecting portion of one said elastically deformable body overmoulded to the housing or supporting structure, wherein said connecting portion connects said at least one compressible compensation element to the at least one from among the internal sealing element, the supporting element and the external sealing element. 6. The device according to claim 1 , wherein the intermediate transverse wall is provided with at least one first through opening, which is designed to delimit a respective part of the passageway, and at least one second through opening, which is designed to house at least one respective portion of one said elastically deformable body overmoulded to the housing or supporting structure. 7. The device according to claim 1 , wherein the intermediate transverse wall has a first through opening and at least one second through opening, the second through opening or each through opening being occupied by a respective portion of one said elastically deformable body overmoulded to the housing or supporting structure, said respective portion connecting together said at least one compressible compensation element to a further compressible compensation element. 8. The device according to claim 1 , wherein the elastically deformable body defines: a first compressible compensation element, which extends downstream of the intermediate transverse wall, is in a position generally close to the membrane part of the sensor body and extends at least in part on the outside of the duct or of the supporting body; and a second compressible compensation element, which extends upstream of the intermediate transverse wall, at least in part within the duct or the supporting body. 9. A pressure-sensor device having: a component sensitive to pressure, comprising a sensor body with a cavity, an elastically deformable membrane part that closes the cavity at an end thereof, and at least one detection element for detecting a deformation of the membrane part; a structure for housing or supporting the pressure-sensitive component, having a passageway for a fluid the pressure of which is to be detected, the housing or supporting structure comprising a supporting body with respect to which the sensor body is mounted in such a way that its membrane part is exposed to fluid coming out of the passageway, the supporting body having a hydraulic-connection portion and a duct that extends from the hydraulic-connection portion; at least one elastically deformable body, formed with one or more elastically deformable or compressible materials and extending at least in part on the outside of the duct or of the supporting body; wherein the at least one elastically deformable body defines at least one compressible compensation element, configured for compensating any possible variations in volume of the fluid, which is in a position generally facing or close to the membrane part of the sensor body and extends at least in part on the outside of the duct of the supporting body; wherein at least a portion of the membrane part of the sensor body extends in an intermediate position between the cavity thereof and the at least one compressible compensation element; wherein the device moreover comprises a sealing and/or supporting element, which is set between the supporting body and the sensor body, to define with them a chamber for collecting the fluid, and which extends, with respect to an upper face of the supporting body, to a greater height than the at least one compressible compensation element; and wherein the at least one compressible compensation element has an upper surface which is set at a distance from the membrane part of the sensor body, the at least one compressible compensation element being positioned in an area circumscribed by the sealing and/or supporting element, the sealing and/or supporting element having an inner diameter or perimetric surface greater than an outer diameter or perimetric surface of the at least one compressible compensation element. 10. The device according to claim 9 , wherein the at least one elastically deformable body defines the sealing and/or supporting element and the at least one compressible compensation element in a single piece. 11. The device according to claim 9 , wherein the at least one elastical