High pressure fuel pump

The invention claimed is: 1. A high pressure fuel pump comprising: a pump head having a main part and a cylindrical turret protruding along a main axis from the main part to a distant disc face, a blind bore extending along the main axis from a pumping chamber, inside the pump head then through the cylindrical turret to an open end in the distant disc face and a low pressure inlet and a high pressure outlet opening in the pumping chamber which flow fuel in and out of the blind bore respectively, a piston arranged to be slidably guided in the blind bore, the piston extending from a compression extremity in the pumping chamber of the blind bore to an outer extremity outside the pump head, the outer extremity being provided with a cam follower, a spring arranged around the piston and slipped over the cylindrical turret such that the spring circumferentially surrounds the cylindrical turret, the spring being compressed between the cam follower and the main part of the pump head, and a sleeve having a cup shape with a bottom face and a peripheral wall, the sleeve being arranged around the cylindrical turret defining a volume between the cylindrical turret and the peripheral wall which fills with fuel that has leaked between the piston and the blind bore from the pumping chamber, the bottom face of the sleeve being provided with a hole through which the piston extends and the sleeve also being provided with an opening in the peripheral wall which allows fuel to exit the volume, wherein the sleeve is further provided with a radial disc face radially extending from an edge of the peripheral wall that is distant from the bottom face, the radial disc face being in abutment against the pump head, the opening in the peripheral wall being located between the bottom face and the radial disc face, and the spring surrounding the sleeve and being compressed against the radial disc face of the sleeve. 2. A high pressure fuel pump as set forth in claim 1 wherein the cylindrical turret is provided with a radial hole which extends radially through the cylindrical turret and which allows fuel that has leaked between the piston and the blind bore from the pumping chamber to pass to the thin volume. 3. A high pressure fuel pump as set forth in claim 1 wherein, relative to the main axis, the peripheral wall is radially between the turret and the spring. 4. A high pressure fuel pump as set forth in claim 1 wherein, relative to the main axis, the opening in the peripheral wall is radially aligned with the spring. 5. A high pressure fuel pump as set forth in claim 1 wherein the turret is of unitary construction with the main part. 6. A high pressure fuel pump as set forth in claim 1 wherein the radial disc face is in abutment against the main part of the pump head in a direction parallel to the main axis. 7. A high pressure fuel pump as set forth in claim 1 wherein one side of the radial disc face engages the main part of the pump head in a direction parallel to the main axis and another side of the radial disc face, which is opposite said one side of the radial disc face, engages the spring.