Safety valve and method for controlling a hydraulic circuit

The invention claimed is: 1. A safety valve ( 22 ) for a hydraulic circuit ( 10 ) comprising a pump ( 17 ) designed to supply a hydraulic fluid at a first pressure value to a pressure line ( 19 ), said valve ( 22 ) comprising: a first supply chamber ( 24 ), which can be fluidically connected to said pressure line ( 19 ) and is designed to be filled with said hydraulic fluid at said first pressure value and at a first temperature value; and a casing ( 23 ) defining at least one first opening ( 30 , 31 ), which can be fluidically connected to a reservoir ( 16 ) of said hydraulic circuit ( 10 ); a first shutter ( 25 ), which delimits said first chamber ( 24 ) and can be displaced between: a first position in which it occludes said first opening ( 30 , 31 ) and prevents, in use, fluid connection between said first chamber ( 24 ) and said first opening ( 30 , 31 ); and a second position, in which it leaves at least in part said first opening ( 30 , 31 ) free and fluidically connects, in use, said first chamber ( 24 ) and said first opening ( 30 , 31 ), said valve further comprising a thermally expandable element ( 49 ), which can be displaced, as a result of the temperature of said hydraulic fluid, between: a first configuration that it assumes, in use, when said hydraulic fluid is below a temperature threshold (Tth); and a second configuration that it assumes, in use, when said hydraulic fluid is above said temperature threshold (Tth) and in which, in use, it holds or displaces said first shutter ( 25 ) into or towards said second position so as to reduce the pressure in said first chamber ( 24 ); characterized in that said casing ( 23 ) comprises: a second chamber ( 28 ) delimited by said first shutter ( 25 ) and by a wall divider ( 26 ) carried by said casing ( 23 ); a third delimited chamber ( 54 ) of said wall divider ( 26 ), which can be filled with said hydraulic fluid and which houses said thermally deformable element ( 49 ) and defines at least one second opening ( 52 ) that can be fluidically connected to said reservoir ( 16 ); said thermally deformable element ( 49 ) leaving directly or indirectly free, in use, said second opening ( 52 ) when it is set in said first configuration so as to generate a flow rate of said hydraulic fluid coming out of said third chamber ( 54 ); said thermally deformable element ( 49 ) occluding, in use, directly or indirectly said second opening ( 52 ) when it is set in said second configuration; said valve ( 22 ) comprising a second shutter ( 60 ), which is able to slide within said casing ( 23 ) and can be displaced between: a corresponding first position, in which it allows, in use, only a seepage of said hydraulic fluid between said second and third chambers ( 28 , 54 ) so as to deliver said hydraulic fluid into said third chamber ( 55 ); and a corresponding second position, in which it enables, in use, fluid connection between said second and third chambers ( 28 , 54 ) so as to generate a flow of said hydraulic fluid between said second and third chambers ( 28 , 54 ), with a flow rate higher than that of said seepage, and reduce, in use, the pressure within said second chamber ( 28 ); said second shutter ( 60 ) comprising a stem ( 65 ) and a first projection ( 67 ) fluidically connected to said third chamber ( 54 ) so as to be subject, in use, to the pressure of said hydraulic fluid existing in said third chamber ( 54 ), when said second shutter ( 60 ) is set, in use, in said first position. 2. The valve according to claim 1 , characterized in that said casing ( 23 ) comprises a fourth chamber ( 55 ) defining a third opening ( 53 ) which can be fluidically connected to said reservoir ( 16 ); said third and fourth chambers ( 54 , 55 ) being fluidically connected together via a first passage ( 63 ) when said second shutter ( 60 ) is in said second position, and being fluidically isolated when said second shutter ( 60 ) is in said first position. 3. The valve according to claim 2 , characterized in that said first passage ( 63 ) comprises: a first stretch ( 95 ) fluidically connected to said third chamber ( 54 ) and inside which said stem ( 65 ) is able to slide with clearance; and a second stretch ( 96 ) set between said first stretch ( 95 ) and said fourth chamber ( 55 ) and housed inside which is said first projection ( 67 ) when said second shutter ( 60 ) is set, in use, in said first position; said first projection ( 67 ) having a diameter larger than the diameter of said stem ( 65 ). 4. The valve according to claim 1 , characterized in that said second shutter ( 60 ) comprises: a second projection ( 69 ) bearing upon a second passage ( 62 ) set between said second chamber ( 28 ) and said third chamber ( 54 ), and designed to allow said seepage when said second shutter ( 60 ) is in the first position; and/or an end ( 66 ) housed in said first chamber ( 24 ). 5. The valve according to claim 1 , characterized in that said stem ( 65 ) is slidingly housed within said first shutter ( 25 ) and comprises a portion ( 71 ) with material removed in part housed within said first shutter ( 25 ); said first and second shutters ( 25 , 60 ) defining between them a third passage ( 73 ) for said hydraulic fluid between said first chamber ( 24 ) and said second chamber ( 28 ); said third passage ( 73 ) comprising said portion ( 71 ) with material removed. 6. The valve according to claim 5 , characterized in that said portion ( 71 ) with material removed of said stem ( 65 ) extends at a variable distance from said first shutter ( 25 ) proceeding in the direction of sliding (X) of said second shutter ( 60 ), in particular at distances first increasing and then decreasing. 7. The valve according to claim 1 , characterized in that it comprises first elastic means ( 59 ) set between said casing ( 23 ) and said second shutter ( 60 ) and configured for pre-loading elastically said second shutter ( 60 ) in the corresponding said first position. 8. The valve according to claim 1 , characterized in that it comprises second elastic means ( 29 ) set between said casing ( 23 ) and said first shutter ( 25 ) and configured for pre-loading elastically said first shutter ( 25 ) in the corresponding said first position; the pre-loading of said second elastic means ( 29 ) being associated to a pressure threshold value (pth) in such a way that said first shutter ( 25 ) will remain, in use, in the corresponding said first position when said first pressure value is lower than said pressure threshold value (pth) and will displace from said first position to said second position when said first pressure value is equal to or higher than said pressure threshold value (pth). 9. The valve according to claim 1 , characterized in that it comprises two said first openings ( 30 , 31 ) having respective fluid-dynamic resistances different from one another; said first shutter ( 25 ) occluding, in use, both of said first openings ( 30 , 31 ) when it is set in said first position; said first shutter ( 25 ) uncovering, in use, both of said first openings ( 30 , 31 ), when it is set in said second position; said first shutter ( 25 ) moreover being displaceable into at least one third position intermediate between said first and second positions, in which it uncovers at least in part at least one ( 31 ) of said first openings ( 30 , 31 ). 10. The valve according to claim 9 , characterized in that said casing ( 23 ) comprises a first surface ( 37 ), which delimits at least said first chamber ( 24 ) and through which said first openings ( 30 , 31 ) open; said first surface ( 37 ) further comprising a shoulder ( 39 ) set axially at a distance from said first openings ( 30 , 31 ); said firs