Gooseneck connector system

What is claimed is: 1. A connector system comprising: a first conduit having a lower coupling and a first alignment feature; and a frame configured to be coupled to an oilfield tubular, and configured to receive the first conduit and a second conduit, wherein the frame comprises a second alignment feature configured to mate with the first alignment feature such that the lower coupling is aligned with the second conduit, and wherein the first alignment feature is configured to slide vertically with respect to the second alignment feature such that the lower coupling is brought into engagement with the second conduit while the first and second alignment features are mated together, wherein the frame comprises: a first bracket configured to receive the first conduit; and a second bracket that is axially-offset from the first bracket and configured to receive the second conduit, such that the first and second conduits received into the first and second brackets, respectively, are coaxially aligned for connection together, wherein the first conduit comprises an upset configured to be received onto the first bracket, so as to transfer a weight of the first conduit to the frame, and wherein the frame further comprises a locking member that is pivotal with respect to the first bracket and configured to engage the first conduit above the upset, such that the upset is entrained vertically between the locking member and the first bracket. 2. The connector system of claim 1 , wherein the first conduit comprises a gooseneck conduit and the second conduit comprises an auxiliary line coupled to a riser string that extends from a drilling rig to a subsea wellhead. 3. The connector system of claim 1 , wherein the first conduit and the second conduit are held together in a vertical direction only by the frame, such that the first conduit is slid vertically into a sealed connection with the second conduit without forming a threaded connection therebetween. 4. The connector system of claim 3 , wherein the frame comprises a locking member configured to engage the first conduit and prevent the first conduit from being displaced vertically relative to second conduit. 5. The connector system of claim 4 , wherein the frame comprises a first bracket defining an open-ended opening configured to receive the first conduit laterally therein, and wherein the locking member is pivotal with respect to the frame between an open position that permits lateral movement of the first conduit into the open-ended opening, and a closed position in which the locking member prevents lateral movement of the first conduit out of the open-ended opening. 6. The connector system of claim 5 , wherein the frame comprises a laterally-extending alignment plate configured to direct lateral movement of the first conduit toward the open-ended opening. 7. The connector system of claim 1 , wherein the frame comprises: a plurality of connector assemblies positioned about a center of the frame, wherein each of the plurality of connector assemblies includes a first bracket configured to receive the first conduit, and a second bracket that is axially-offset from the first bracket and configured to receive the second conduit, such that the first and second conduits received into the first and second brackets of one of the plurality of connector assemblies are coaxially aligned for connection together. 8. The connector system of claim 1 , wherein the first alignment feature comprises a key extending laterally from the first conduit, and wherein the second alignment feature comprises a groove defined in the frame and configured to receive the key. 9. A connector system comprising: a first conduit having a lower coupling and a first alignment feature; and a frame configured to be coupled to an oilfield tubular, and configured to receive the first conduit and a second conduit, wherein the frame comprises a second alignment feature configured to mate with the first alignment feature such that the lower coupling is aligned with the second conduit, and wherein the first alignment feature is configured to slide vertically with respect to the second alignment feature such that the lower coupling is brought into engagement with the second conduit while the first and second alignment features are mated together, wherein the first alignment feature comprises a key extending laterally from the first conduit, and wherein the second alignment feature comprises a groove defined in the frame and configured to receive the key, and wherein the key and the groove form a dovetail connection that prevents lateral displacement of the first conduit from the frame unless the first conduit is moved vertically such that the key is pulled up out of the groove. 10. A method for connecting together a first conduit and a second conduit, comprising: connecting the second conduit to a frame; connecting the frame to an oilfield tubular; moving the first conduit laterally to a position that is vertically above the second conduit supported in the frame; lowering the first conduit toward the second conduit, wherein lowering the first conduit comprises mating a first alignment feature of the first conduit with a second alignment feature of the second conduit, wherein the mated first and second alignment features maintain coaxial alignment between the first and second conduits while lowering the first conduit toward the second conduit; and locking a position of the first conduit, after lowering the second conduit, by moving a locking member to a closed position, so as to prevent the first conduit from displacement relative to the second conduit, without forming a threaded connection between the first and second conduits, wherein moving the first conduit laterally comprises receiving the first conduit into an opening formed in an upper bracket of the frame, and wherein the second conduit is secured in a lower bracket that is vertically offset from the upper bracket, the method further comprising directing a vertically-extending portion of the first conduit into the opening using one or more alignment plates extending laterally outward of the upper bracket. 11. The method of claim 10 , wherein lowering the first conduit comprises landing an upset of the first conduit on the upper bracket, and wherein locking the position of the first conduit comprises engaging the upset with the locking member, such that the upset is entrained vertically between the locking member and the upper bracket. 12. The method of claim 10 , wherein the first alignment feature comprises a key, and wherein the second alignment feature comprises a groove formed in the frame. 13. The method of claim 10 , wherein the first conduit is stabbed into the second conduit and forms a fluid-tight seal therewith.