Shape recessed surface cooling air feed hole blockage preventer for a gas turbine engine

What is claimed: 1. A vane ring for a gas turbine engine component, comprising: an inner vane platform around an axis; an outer vane platform around the axis; a multiple of vanes that extend between the inner vane platform and the outer vane platform, each of the multiple of vanes contains an airfoil cooling circuit that receives cooling airflow through a respective one of a multiple of feed passages; a multiple of metering passages in the outer vane platform, each of the multiple of metering passages in communication with one of the multiple of feed passages; a multiple of secondary passages recessed in the outer vane platform, each of the multiple of secondary passages in communication with a respective one of the multiple of metering passages; a metering passage in the outer vane platform in communication with one of the multiple of feed passages, wherein a cross-sectional area of the metering passage is circular; and a secondary passage recessed into a surface of the outer vane platform transverse and in communication with the metering passage, the secondary passage provides a recessed area equivalent to an area of an entrance to the metering passage, wherein the secondary passage forms a slot. 2. The vane ring as recited in claim 1 , wherein the metering passage and the secondary passage are formed in a surface transverse to the axis. 3. The vane ring as recited in claim 2 , wherein the cooling airflow is received in a plenum to scrub along the surface. 4. The vane ring as recited in claim 1 , wherein the cooling airflow passes through the secondary passage under a foreign object stuck in the entrance to the metering passage and thereby passes into the feed passage. 5. The vane ring as recited in claim 1 , wherein the secondary passage recessed in the outer vane platform extends across the circular metering passage. 6. A vane ring for a gas turbine engine component, comprising: an inner vane platform around an axis; an outer vane platform around the axis; a multiple of vanes that extend between the inner vane platform and the outer vane platform, each of the multiple of vanes contains an airfoil cooling circuit that receives cooling airflow through a respective one of a multiple of feed passages; a hooked rail that extends from the outer vane platform; a circular metering passage in the hooked rail, the circular metering passage in communication with one of the multiple of feed passages; and a secondary passage that forms a slot recessed into a surface of the hooked rail transverse and in communication with the circular metering passage, the secondary passage provides a recessed area equivalent to an area of an entrance to the metering passage. 7. The vane ring as recited in claim 6 , wherein the metering passage and the secondary passage are each formed in a surface transverse to the axis. 8. The vane ring as recited in claim 7 , wherein the vane ring is in a second turbine stage.