Thermostatic valve having a sleeve

The invention claimed is: 1. A thermostatic valve, including: a housing in which a fluid circulates, a sleeve for regulating the circulation of the fluid in the housing, this sleeve being substantially centered on an axis along which the sleeve is movable relative to the housing to cut or allow a flow of fluid, a thermostatic element, containing a heat-expandable material and comprising a stationary part, which is fixedly connected to the housing, and a moving part, which is movable along the axis relative to the stationary part resulting from an expansion of the heat-expandable material and which bears the sleeve to cut or allow the flow of fluid, a compression spring for returning the stationary part and the moving part of the thermostatic element toward one another, and a bracket for supporting the compression spring, which, during use, supports a decompression thrust produced by the compression spring and which is provided with: fasteners for fastening to a bearing portion of the housing that is transverse to the axis, said fasteners cooperating in a form-fitting manner with the bearing portion so as to be attached with the bearing portion along the axis as a result of a decompression thrust produced by the spring, and locking features that axially abut against the bearing portion of the housing so as to keep the fasteners attached to the bearing portion when a stress compressing the compression spring is applied on the bracket. 2. The thermostatic valve according to claim 1 , wherein the bearing portion of the housing is at least partially arranged so as to be axially interposed between the fasteners and the locking features. 3. The thermostatic valve according to claim 1 , wherein the bearing portion of the housing includes an annular rim, which is centered on the axis and against axially opposite faces of which the fasteners bear as a result of the decompression thrust produced by the compression spring and the locking features bear when a stress compressing the compression spring is applied on the bracket, respectively. 4. The thermostatic valve according to claim 1 , wherein the bracket includes arms, which are distributed around the axis and each have two ends, opposite one another in the longitudinal direction of the arm and connected to one another by a running part of the arm, wherein the fasteners are provided at a first of the two ends of the arms, wherein the locking features are provided in the running part of the arms, and wherein the second end of the arms is designed so as, during use, to cooperate with an end of the compression spring in order to resist a decompression thrust produced by the compression spring. 5. The thermostatic valve according to claim 4 , wherein the second end of the arms is designed to cooperate, in a form-fitting manner, with said end of the spring. 6. The valve according to claim 4 , wherein the first end of each arm is free with respect to the rest of the bracket, while the respective second ends of the arms are secured together by a crown of the bracket, and wherein, at the second end, each arm is connected to the crown so as to be deformable between: a usage configuration, in which the fasteners are arranged axially overhanging the bearing portion of the housing so as to be attached to the bearing portion as a result of the decompression thrust produced by the compression spring, and in which the locking features are arranged axially overhanging the bearing portion of the housing so as to axially abut against the bearing portion when a stress compressing the compression spring is applied on the bracket, and a first assembly configuration, in which the fasteners and the locking features are separated, by moving away from the axis, from the respective places that they occupy when the arm is in the usage configuration, so as not to interfere with the bearing portion of the housing, by going through a second assembly configuration, which is midway between the usage configuration and the first assembly configuration, and in which the fasteners are arranged axially overhanging the bearing portion of the housing so as to be attached to the bearing portion as a result of the decompression thrust produced by the compression spring, while the locking features interfere with the bearing portion of the housing in a direction transverse to the axis to offset them, by moving away from the axis, from the place that they occupy when the arm is in the usage position. 7. The thermostatic valve according to claim 6 , wherein the locking means include at least one tongue, which is supported by the running part of the arms so as to be elastically deformable, relative to the rest of the running part of the arms, between a rest position, in which the tongue is deployed toward the axis relative to the rest of the running part of the arms and which is occupied by the tongue when the arms of the bracket are in the usage configuration, and a deformed position, in which the tongue is at least partially retracted with respect to the rest of the running part of the arms and which is occupied by the tongue when the bracket is in the second assembly configuration. 8. The thermostatic valve according to claim 6 , wherein the fasteners include at least one hook, which is supported by the first end of the arms and which has a recess suitable for receiving an annular rim, substantially centered on the axis, of the bearing portion of the housing. 9. The thermostatic valve according to claim 6 , wherein each arm is movable between the usage position and the first and second assembly configurations by tilting around an axis substantially orthoradial to the axis. 10. The thermostatic valve according to claim 6 , wherein, in the usage configuration, the arm extend substantially parallel to the axis. 11. The thermostatic valve according to claim 1 , characterized in that the bearing portion of the housing also cooperates with the stationary part of the thermostatic element to connect the stationary part fixedly to the housing. 12. The thermostatic valve according to claim 11 , wherein the bearing portion of the housing cooperates in a form-fitting manner with the stationary part of the thermostatic element. 13. The thermostatic valve according to claim 1 , wherein in that the housing is made from plastic.