Pressure reducer

The invention claimed is: 1. A pressure reducer assembly comprising: a pressure reducer body defining at least one pressure reducer chamber along a central axis, the pressure reducer chamber including: an inlet section and an outlet section fluidly coupled with the inlet section such that the inlet section and the outlet section allow inlet and outlet of the fluid respectively; a spring-operated hollow piston rod having a center along the central axis, a cylindrical inner peripheral surface comprising an inner diameter and a cylindrical outer peripheral surface comprising an outer diameter; and a diaphragm made of elastic material and adapted to be operatively coupled with the piston rod, wherein the diaphragm has a central hole having a center along a central axis and a diameter; wherein, in an unmounted state, the outer diameter of the piston rod is greater than the diameter of the central hole of the diaphragm, wherein, in a mounted state, the outer diameter of the piston rod is the same as the diameter of the central hole of the diaphragm, wherein the diaphragm is assembled over the piston rod so that the central axis coincides with the central axis, wherein a radial stress leads to deformation of the diaphragm, and wherein the deformation is a conical deformation. 2. The pressure reducer assembly of claim 1 , wherein, in the unmounted state, the diameter of the central hole of the diaphragm is equal to the inner diameter of the piston rod. 3. The pressure reducer assembly of claim 1 , wherein the diaphragm is made of silicone. 4. The pressure reducer assembly of claim 1 , wherein the diaphragm is produced by stamping. 5. The pressure reducer assembly of claim 1 , wherein the piston rod includes a diaphragm support surface. 6. The pressure reducer assembly of claim 1 , wherein an annular nose is provided adjacent to the diaphragm to press the diaphragm in a direction opposite to a direction of force transmitted by the annular nose upon pressing the diaphragm, when a spring is in an expanded state. 7. The pressure reducer assembly of claim 6 , wherein the annular nose includes a stop surface which engages with a slant surface of a diaphragm support surface when the spring is in the expanded state. 8. The pressure reducer assembly of claim 1 , wherein a difference in size of the diameter of the central hole of the diaphragm and the outer diameter of the piston rod results in the conical deformation of the diaphragm. 9. A pressure reducer assembly comprising: a pressure reducer body defining at least one pressure reducer chamber along a central axis, the pressure reducer chamber including: an inlet section and an outlet section fluidly coupled with the inlet section such that the inlet section and the outlet section allow inlet and outlet of the fluid respectively; a spring-operated hollow piston rod having a center along the central axis, a cylindrical inner peripheral surface comprising an inner diameter and a cylindrical outer peripheral surface comprising an outer diameter; and a diaphragm made of elastic material and adapted to be operatively coupled with the piston rod, wherein the diaphragm has a central hole having a center along a central axis and a diameter; wherein, in an unmounted state, the outer diameter of the piston rod is greater than the diameter of the central hole of the diaphragm, wherein, in a mounted state, the outer diameter of the piston rod is the same as the diameter of the central hole of the diaphragm, wherein the diaphragm is assembled over the piston rod so that the central axis coincides with the central axis, and wherein, in the unmounted state, the diameter of the central hole of the diaphragm is equal to the inner diameter of the piston rod. 10. The pressure reducer assembly of claim 9 , wherein a radial stress leads to deformation of the diaphragm. 11. The pressure reducer assembly of claim 10 , wherein the deformation is a conical deformation. 12. The pressure reducer assembly of claim 11 , wherein a difference in size of the diameter of the central hole of the diaphragm and the outer diameter of the piston rod results in the conical deformation of the diaphragm. 13. A pressure reducer assembly comprising: a pressure reducer body defining at least one pressure reducer chamber along a central axis, the pressure reducer chamber including: an inlet section and an outlet section fluidly coupled with the inlet section such that the inlet section and the outlet section allow inlet and outlet of the fluid respectively; a spring-operated hollow piston rod having a center along the central axis, a cylindrical inner peripheral surface comprising an inner diameter and a cylindrical outer peripheral surface comprising an outer diameter; and a diaphragm made of elastic material and adapted to be operatively coupled with the piston rod, wherein the diaphragm has a central hole having a center along a central axis and a diameter; wherein, in an unmounted state, the outer diameter of the piston rod is greater than the diameter of the central hole of the diaphragm, wherein, in a mounted state, the outer diameter of the piston rod is the same as the diameter of the central hole of the diaphragm, wherein the diaphragm is assembled over the piston rod so that the central axis coincides with the central axis, wherein an annular nose is provided adjacent to the diaphragm to press the diaphragm in a direction opposite to a direction of force transmitted by the annular nose upon pressing the diaphragm, when a spring is in an expanded state, and wherein the annular nose includes a stop surface which engages with a slant surface of a diaphragm support surface when the spring is in the expanded state. 14. The pressure reducer assembly of claim 13 , wherein a difference in size of the diameter of the central hole of the diaphragm and the outer diameter of the piston rod results in a conical deformation of the diaphragm.