Valve group for a pressurised oil circuit

The invention claimed is: 1. An oil temperature management assembly comprising: i) a heat exchanger; ii) a support body for supporting the heat exchanger comprising a duct in fluidic communication with the heat exchanges, the duct having at least one inlet mouth, at least one outlet mouth and, on the side wall delimiting the duct, at least one exchanger mouth through which oil flows in the heat exchanger; iii) a valve group housed in the duct, wherein the valve group extends in length along an axis, the valve group comprising: a valve body extending along the axis axially fixed to the support body; a hollow obturator comprising a tip and obturator wall, the obturator extending along the axis fitted axially movably on a first end of the valve body; the obturator comprising: a primary obturator opening formed in the obturator wall and a secondary obturator opening formed in the obturator wall and axially spaced from each other through which the oil flows towards the heat exchanger when positioned respectively aligned with the exchanger mouth, in a first operating configuration and a third operating configuration; an obturator outlet opening formed in the tip of the obturator and spaced axially from the primary obturator opening and the second obturator opening, wherein the oil flows through the obturator outlet opening when the obturator is placed in a second operating configuration and/or in a venting configuration; a control system for positioning and moving the hollow obturator comprising: a temperature sensor proximate the first end of the valve body and engaging the obturator to guide the obturator based on oil temperature, into an axial position corresponding to the second operating configuration or the third operating configuration; a pressure sensor proximate an opposite second end of the valve body to keep the obturator in an axial position corresponding to the first operating configuration and to allow movement of the obturator based on oil pressure, in an axial position corresponding to the venting configuration. 2. The oil temperature management assembly according to claim 1 , wherein the third operating configuration identifies a third minimum operating configuration, in which the exchanger mouth and a secondary exchanger opening are partially aligned, and a third maximum operating configuration in which the exchanger mouth and the secondary exchanger opening are fully aligned, in which the temperature sensor allows movement of the obturator in said third minimum operating configuration and in said third maximum operating configuration, depending on the oil temperature. 3. The oil temperature management assembly according to claim 1 , wherein the temperature sensor is housed on the valve body comprising, distally from the valve body, a control portion, engaging the obturator, which changes shape of the temperature sensor along the axis depending on the oil temperature. 4. The oil temperature management assembly according to claim 1 , wherein the temperature sensor comprises a stopper protrusion having a radial extension, to engage the obturator in the first operating configuration and to engage the pressure sensor in the third operating configuration to prevent passage of oil towards the outlet opening. 5. The oil temperature management assembly according to claim 1 , wherein the temperature sensor contains a wax body of changeable shape. 6. The oil temperature management assembly according to claim 1 , wherein the pressure sensor acts with the valve body, with the obturator and with the temperature sensor, the temperature sensor comprising a retainer housed in a proximal position, engaging the valve body and the obturator to keep the obturator in the first operating configuration, and to allow movement of the obturator into the venting configuration when stressed by action of the pressurised oil. 7. The oil temperature management assembly according to claim 6 , wherein the retainer comprises a retention portion integrally connected to the obturator and an elastic retention body placed between the retention portion and the valve body to exert upon the retention portion and the valve body an axial thrust action in the proximal direction. 8. The oil temperature management assembly according to claim 7 , wherein the elastic retention body is a helical spring operating between the retention portion and the valve body. 9. The oil temperature management assembly according to claim 1 , wherein the pressure sensor comprises an engagement device housed in a distal position, engaging the valve body and the obturator and/or the temperature sensor keep the obturator in the third operating configuration, and permit movement of the obturator into the venting configuration when stressed by action of the pressurised oil. 10. The oil temperature management assembly according to claim 9 , wherein the engagement device comprises an abutment element to engage the obturator and/or the temperature sensor and an elastic thrust body placed between the abutment element and the valve body to perform on the abutment element and the valve body an axial thrust action in the distal direction. 11. The oil temperature management assembly according to claim 1 , wherein the elastic thrust body is a helical spring operating between the abutment element and the valve body. 12. The oil temperature management assembly according to claim 10 , wherein the abutment element has a shape axial-symmetric to the axis and is adapted, in the first operating configuration, in the second operating configuration and in the venting configuration to externally engage the obturator wall which comprises an abutment step and, in the third operating configuration, to be engaged internally by a stopper protrusion of the temperature sensor. 13. The oil temperature management assembly according to claim 10 , wherein the retainer comprises a retention portion integrally connected to the obturator and an elastic retention body placed between the retention portion and the valve body to exert upon the retention portion and the valve body an axial thrust action in the proximal direction; and wherein the elastic retention body is less yielding than the elastic thrust body. 14. The oil temperature management assembly according to claim 1 , wherein the valve group is insertable and removable as a self-contained cartridge from inside the duct. 15. An oil filtering assembly for filtering a predefined quantity of oil in the engine of a vehicle, comprising: i) an oil filtering device; ii) the oil temperature management assembly according to claim 1 . 16. The oil temperature management assembly according to claim 1 , wherein the tip of the obturator is proximate an end of the obturator opposite the valve body.