Method of manufacturing a trailer

The invention claimed is: 1. A method comprising the steps of: providing first, second and third top wall segments to be used in forming a trailer storage vessel; wherein the first, second and third top wall segments are initially separate from one another and have respective front and back edges; each of the top wall segments is curved as viewed from a front of the respective top wall segment; the first top wall segment has a first peak extending from adjacent the front edge of the first top wall segment to adjacent the back edge of the first top wall segment; the second top wall segment has a second peak extending from adjacent the front edge of the second top wall segment to adjacent the back edge of the second top wall segment; and the third top wall segment has a third peak extending from adjacent the front edge of the third top wall segment to adjacent the back edge of the third top wall segment; placing the first top wall segment into a jig in a first top wall segment inverted position so that the first peak is inverted; positioning the second top wall segment on a first lift of the jig in a second top wall segment inverted position so that the second peak is inverted and so that when the first lift is in a first lift position, the front edge of the second top wall segment is adjacent the back edge of the first top wall segment, and the inverted second peak angles upwardly and rearwardly; welding the front edge of the second top wall segment to the back edge of the first top wall segment while the first lift is in the first lift position; positioning the third top wall segment on the first lift in a third top wall segment inverted position so that the third peak is inverted and so that when the first lift is in a second lift position rearward of the first lift position, the front edge of the third top wall segment is adjacent the back edge of the second top wall segment, and the inverted third peak angles upwardly and rearwardly; and welding the front edge of the third top wall segment to the back edge of the second top wall segment while the first lift is in the second lift position. 2. The method of claim 1 wherein while the third top wall segment is on the first lift in the second lift position, the third peak angles upwardly and rearwardly at a greater incline than does the second peak. 3. The method of claim 1 wherein the first lift comprises a lift frame and a lifting member which is pivotally mounted on the lift frame so that a lift surface of the lifting member is movable upwardly and downwardly via pivoting of the lifting member; while the first lift is in the first lift position, the lift surface engages the second top wall segment and angles upwardly and rearwardly at a first angle; and while the first lift is in the second lift position, the lift surface engages the third top wall segment and angles upwardly and rearwardly at a second angle different than the first angle. 4. The method of claim 1 further comprising the steps of welding a top edge of a first bottom wall segment to a bottom edge of the first top wall segment to form at least part of a first hopper of the storage vessel; and welding a top edge of a second bottom wall segment to a bottom edge of the second top wall segment to form at least part of a second hopper of the storage vessel. 5. The method of claim 4 further comprising the steps of removing the storage vessel from the jig; turning the removed storage vessel over from the inverted position to an upright position; securing the storage vessel to a trailer frame; and mounting ground-engaging wheels on the trailer frame. 6. The method of claim 5 further comprising the steps of securing a fill port assembly to a top of one of the top wall segments; mounting a first discharge port assembly on a bottom of the first hopper; and mounting a second discharge port assembly on a bottom of the second hopper. 7. The method of claim 1 further comprising the steps of providing a fourth top wall segment to be used in forming the trailer storage vessel; wherein the fourth top wall segment is initially separate from the first, second and third top wall segments and has front and back edges; the fourth top wall segment is curved as viewed from a front of the fourth top wall segment; and the fourth top wall segment has a fourth peak extending from adjacent the front edge of the fourth top wall segment to adjacent the back edge of the fourth top wall segment; positioning the fourth top wall segment on a second lift of the jig in a fourth top wall segment inverted position so that the fourth peak is inverted and so that when the second lift is in a third lift position forward of the first lift position, the back edge of the fourth top wall segment is adjacent the front edge of the first top wall segment, and the inverted fourth peak angles upwardly and forward; and welding the back edge of the fourth top wall segment to the front edge of the first top wall segment while the second lift is in the third lift position. 8. The method of claim 7 further comprising the steps of providing a fifth top wall segment to be used in forming the trailer storage vessel; wherein the fifth top wall segment is initially separate from the first, second, third and fourth top wall segments and has front and back edges; the fifth top wall segment is curved as viewed from a front of the fifth top wall segment; and the fifth top wall segment has a fifth peak extending from adjacent the front edge of the fifth top wall segment to adjacent the back edge of the fifth top wall segment; positioning the fifth top wall segment on the second lift in a fifth top wall segment inverted position so that the fifth peak is inverted and so that when the second lift is in a fourth lift position forward of the third lift position, the back edge of the fifth top wall segment is adjacent the front edge of the fourth top wall segment, and the inverted fifth peak angles upwardly and forward; and welding the back edge of the fifth top wall segment to the front edge of the fourth top wall segment while the second lift is in the fourth lift position. 9. The method of claim 1 further comprising the step of rolling the first lift on lift wheels from the first lift position to the second lift position. 10. The method of claim 9 wherein the first lift comprises a carriage and a lifting member; the carriage comprises a lift frame on which the lift wheels are rotatably mounted and on which the lifting member is movably mounted so that a lift surface of the lifting member is movable upwardly and downwardly; the lift surface engages the second top wall segment during the step of positioning the second top wall segment on the first lift; and the step of rolling comprises rolling the lift wheels on a track with a blocking member directly above a portion of the carriage such that the blocking member limits upward movement of the carriage to prevent derailment of the first lift from the track. 11. The method of claim 10 wherein the track comprises upper and lower rails; and the upper rail is directly above and adjacent the lift wheels and serves as the blocking member. 12. The method of claim 1 wherein the first top wall segment comprises a top wall portion, a left sidewall portion and a right sidewall portion; and further comprising the step of while the first top wall segment is in the first top wall inverted position, engaging the top wall portion, the left sidewall portion and the right sidewall portion respectively with first, second and third engaging members of the jig. 13. The method of claim 1 wherein the first and second peaks define therebetween a