Two-piece stand-pipe

What is claimed is: 1. A two-piece standpipe system, comprising: a clinch nut having a sleeve connected to the clinch nut and a bore extending through the clinch nut and the sleeve; and a stand-pipe having an outer face of the stand-pipe directly connected to an inner wall of the sleeve of the clinch nut, the stand-pipe including; an end cap defining a free end of the stand-pipe preventing entrance of a fluid into a longitudinal bore of the stand-pipe; and at least one port created in a side wall of the stand-pipe permitting the fluid to enter the longitudinal bore of the stand-pipe and flow into the bore of the clinch nut and the sleeve. 2. The two-piece standpipe system of claim 1 , wherein the clinch nut is a metal and the stand-pipe is a polymeric material. 3. The two-piece standpipe system of claim 2 , wherein the clinch nut includes an inner surface having a circular groove. 4. The two-piece standpipe system of claim 3 , wherein the stand-pipe includes a key created during a molding operation of the stand-pipe into the clinch nut, the key extending into the circular groove acting to prevent release of the stand-pipe from the clinch nut. 5. The two-piece standpipe system of claim 1 , wherein the at least one port includes at least two ports each including an edge with the edge of all of the ports located at a common distance from the clinch nut. 6. The two-piece standpipe system of claim 1 , wherein the at least one port defines a rectangular shape. 7. The two-piece standpipe system of claim 1 , wherein the end cap is integrally connected to the stand-pipe during a molding operation to create the stand-pipe. 8. The two-piece standpipe system of claim 1 , wherein the clinch nut includes a threaded bore oppositely positioned from the end cap. 9. The two-piece standpipe system of claim 8 , further including a plug having a threaded shank threadably engaged with the threaded bore of the clinch nut to releasably seal the longitudinal bore. 10. The two-piece standpipe system of claim 1 , wherein the stand-pipe is frictionally received against an inner cylindrical wall of the clinch nut. 11. The two-piece standpipe system of claim 1 , further including a collar integrally connected to the stand-pipe. 12. The two-piece standpipe system of claim 11 , wherein the collar has a diameter greater than a diameter of the stand-pipe. 13. The two-piece standpipe system of claim 11 , wherein the collar includes a conical section joined to the stand-pipe. 14. The two-piece standpipe system of claim 11 , wherein the collar is connected during a separate molding operation to the clinch nut. 15. A two-piece standpipe system, comprising: a clinch nut having a sleeve connected to the clinch nut and a threaded bore extending through the clinch nut and the sleeve; and a stand-pipe having an outer face of the stand-pipe directly connected to an inner wall of the sleeve of the clinch nut, the stand-pipe including: a longitudinal bore in fluid communication with the threaded bore; an end cap defining a free end of the stand-pipe preventing entrance of a fluid into the longitudinal bore of the stand-pipe; and at least two ports created in a side wall of the stand-pipe allowing entrance of the fluid into the longitudinal bore and to flow into the threaded bore of the clinch nut, each of the ports including a lower edge located at a single predetermined distance from an end face of the clinch nut. 16. The two-piece standpipe system of claim 15 , wherein the stand-pipe is frictionally received against an inner cylindrical wall of the clinch nut. 17. The two-piece standpipe system of claim 15 , wherein the stand-pipe is a polymeric material molded into the clinch nut and directly contacts against an inner cylindrical wall of the clinch nut. 18. The two-piece standpipe system of claim 15 , wherein the clinch nut includes an extending portion which provides positive frictional engagement between the clinch nut and an oil pan where the extending portion extends through an aperture created in the oil pan. 19. The two-piece standpipe system of claim 18 , wherein the edge of each of the ports defines an oil fill level of a transmission to which the oil pan is connected. 20. An automobile transmission hydraulic oil fill system, comprising: a transmission oil pan; a two-piece standpipe system, including: a clinch nut having a sleeve connected to the clinch nut and a bore extending through the clinch nut and the sleeve, the clinch nut connected to the oil pan and having a threaded bore opening into the bore of the clinch nut and through the oil pan; and a stand-pipe fixed to the clinch nut, the stand-pipe including: a longitudinal bore in fluid communication with the threaded bore and with the bore of the clinch nut and the sleeve; an end cap defining a free end of the stand-pipe preventing entrance of hydraulic oil into the longitudinal bore of the stand-pipe during hydraulic oil fill of the transmission; and multiple ports created in a side wall of the stand-pipe allowing entrance of the hydraulic oil into the longitudinal bore and to flow out of the threaded bore of the clinch nut, each of the ports including a lower edge located at a single predetermined distance from an end face of the clinch nut; wherein the edges of the ports define a hydraulic oil fill level of the transmission.