Motor vehicle wheelset anti-roll device with actuating means operated by a hydraulic control circuit

The invention claimed is: 1. An anti-roll device for a motor vehicle wheelset, said device comprising a bar adapted to be coupled to right and left wheels of said wheelset via two links, wherein, said anti-roll device comprises: i) actuating means forming part of said bar or of one of said links and comprising a casing defining a chamber subdivided into first and second parts of variable volumes by a piston, said chamber comprising first and second inputs/outputs communicating with said first and second parts respectively and an intermediate input/output communicating with said first part or said second part depending on the position of said piston in said chamber, and said actuating means being switchable between a disengaged state and a blocked state in any given position of said piston, and ii) a hydraulic control circuit, said hydraulic control circuit comprising: a) a fluid reservoir; b) first and second non-return means in communication with said fluid reservoir, said first and second non-return means each being coupled to at least one of said first and second inputs/outputs and to said intermediate input/output, wherein said first and second non-return means are adapted to prevent fluid flow from said at least one of said first and second inputs/outputs to said reservoir; and c) a first solenoid valve and a second solenoid valve; wherein said hydraulic control circuit is controlled to switch said actuating means between said disengaged and blocked states; wherein: i) said first input/output is coupled to said fluid reservoir (1) via said first non-return means to only allow passage of fluid from said fluid reservoir to said first input/output, and (2) via said first solenoid valve which is mounted in parallel with said first non-return means, said first solenoid valve being switchable between a first, open state associated with said disengaged state of said actuating means and a second, closed state associated with said blocked state of said actuating means, ii) said second input/output is coupled to said fluid reservoir (1) via said second non-return means to only allow passage of fluid from said fluid reservoir to said second input/output, and (2) via said second solenoid valve which is mounted in parallel with said second non-return means, said second solenoid valve being switchable between a first, open state associated with said disengaged state of said actuating means and a second, closed state associated with said blocked state of said actuating means, and iii) said intermediate input/output is coupled to said fluid reservoir, and, wherein, said control circuit is controlled to place said first and second solenoid valves either in said first, open state so as to place said actuating means in said disengaged state or in said second, closed state so as to place said actuating means in said blocked state. 2. The anti-roll device according to claim 1 , wherein one of said links comprises said actuating means and forms a link of variable length guided by said control, and the other link is of a fixed length. 3. The anti-roll device according to claim 1 , wherein said bar comprises first and second arms each comprising a first end coupled to one of said links and a second end coupled to said casing or to said piston of the actuating means. 4. The anti-roll device according to claim 3 , wherein said casing and piston define a cylinder actuator or a screw actuator. 5. The anti-roll device according to claim 4 , wherein the screw actuator is a ball screw actuator. 6. A motor vehicle comprising at least one wheelset comprising right and left wheels, wherein the motor vehicle further comprises the anti-roll device according to claim 1 , said anti-roll device being coupled to said right and left wheels of the wheelset. 7. An anti-roll device for a motor vehicle wheelset, said device comprising a bar adapted to be coupled to right and left wheels of said wheelset via two links, wherein, said anti-roll device comprises: i) actuating means forming part of said bar or of one of said links and comprising a casing defining a chamber subdivided into first and second parts of variable volumes by a piston, said chamber comprising first and second inputs/outputs communicating with said first and second parts respectively and an intermediate input/output communicating with said first part or said second part depending on the position of said piston in said chamber, and said actuating means being switchable between a disengaged state and a blocked state in any given position of said piston, and ii) a hydraulic control circuit, said hydraulic control circuit comprising: a) a fluid reservoir; b) first and second non-return means in communication with said fluid reservoir, said first and second non-return means each being coupled to at least one of said first and second inputs/outputs and to said intermediate input/output, wherein said first and second non-return means are adapted to prevent fluid flow from said at least one of said first and second inputs/outputs to said reservoir; and c) at least one solenoid valve coupled to at least one of said first and second inputs/outputs, to said intermediate input/output, and to at least one of the first and second non-return means, said at least one solenoid valve being switchable between a first state in which said actuating means is in said disengaged state and a second state in which said actuating means is in said blocked state, wherein said at least one solenoid valve comprises a six-way solenoid valve; wherein, said first and second inputs/outputs and said intermediate input/output are coupled to said fluid reservoir via said six-way solenoid valve, said six-way solenoid valve: i) comprising said first and second non-return means, and ii) being adapted to be switched between (1) a first, open state, associated with said disengaged state of said actuating means in which said fluid flows between said first and second parts of said chamber and said fluid reservoir but does not flow between said intermediate input/output and said fluid reservoir and (2) a second state, associated with said blocked state of said actuating means in which said fluid flows from said fluid reservoir to said first and second parts of said chamber via said first and second non-return means respectively and flows between said intermediate input/output and said fluid reservoir, and, wherein said control circuit is controlled to place said solenoid valve either in said first, open state so as to place said actuating means in said disengaged state or in said second state so as to place said actuating means in said blocked state. 8. The anti-roll device according to claim 7 , wherein one of said links comprises said actuating means and forms a link of variable length guided by said control, and the other link is of a fixed length. 9. The anti-roll device according to claim 7 , wherein said bar comprises first and second arms each comprising a first end coupled to one of said links and a second end coupled to said casing or to said piston of the actuating means. 10. The anti-roll device according to claim 9 , wherein said casing and piston define a cylinder actuator or a screw actuator. 11. The anti-roll device according to claim 10 , wherein the screw actuator is a ball screw actuator. 12. A motor vehicle comprising at least one wheelset comprising right and left wheels, wherein the motor vehicle further comprises the anti-roll device according to claim 7 , said anti-roll device being coupled to said right and left wheels of the wheelset.