Boom for a pipelaying machine

What is claimed is: 1. A boom for a pipelaying machine, the boom having a base end adapted to be pivotally coupled to the pipelaying machine and a distal end opposite the base end, and the boom comprising: a pair of posts located in a first plane and disposed in a tapered configuration with respect to a second plane transverse to the first plane; and a cross-brace disposed between the pair of posts and located partway along a length of the pair of posts, the cross-brace comprising: a first link member and a second link member disposed along the first plane, wherein each of the first link member and the second link member are angularly offset from each other and the second plane respectively, and wherein ends of each of the first and second link members are rigidly attached to the pair of posts; and a first rib member and a second rib member disposed along the second plane and rigidly attached to the first link member and the second link member respective, wherein both of the ends of the first and second link members are closer to the base end of the boom than the distal end of the boom and a maximum height of the cross-brace in a length direction of the boom is less than a maximum width of the cross-brace in a width direction of the boom perpendicular to the length direction, such that a first window between the cross-brace and the distal end of the boom is greater in area than a second window between the cross-brace and the base end of the boom. 2. The boom of claim 1 , wherein the first link member and the second link member are configured to intersect at a common mid-point. 3. The boom of claim 2 , wherein the common mid-point is located at less than 50% of the length associated with the pair of posts. 4. The boom of claim 3 , wherein the common mid-point is located at less than 30% of the length associated with the pair of posts. 5. The boom of claim 1 , wherein the maximum height of the cross-brace is less than 50% of the length associated with the pair of posts. 6. The boom of claim 5 , wherein the maximum height of the cross-brace is less than 30% of the length associated with the pair of posts. 7. The boom of claim 1 , wherein a width of each of the first and second link members and a width of each of the first and second rib members is less than or equal to a width of one post from the pair of posts. 8. The boom of claim 1 , wherein the first rib member is coterminous in length with the first link member and the second rib member is coterminous in length with the second link member. 9. The boom of claim 1 , wherein each post is disposed in an angular relation to the second plane such that first distal ends of respective ones of the posts are proximate to each other and second distal ends of respective ones of the posts are spaced apart from each other. 10. The boom of claim 9 , wherein the first distal ends of respective ones of the posts are rigidly attached by at least one gusset. 11. A pipelaying machine comprising: a frame; an operator cab mounted on the frame; a boom disposed adjacent to the operator cab and pivotally coupled to the frame, the boom comprising: a pair of posts located in a first plane and pivotally coupled to the frame, the pair of posts disposed in a tapered configuration with respect to a second plane transverse to the first plane; and a cross-brace disposed between the pair of posts and located partway along a length of the pair of posts, the cross-brace comprising: a first link member and a second link member disposed along the first plane, wherein each of the first link member and the second link member are angularly offset from each other and the second plane respectively, and wherein ends of each of the first and second link members are rigidly attached to the pair of posts; and a first rib member and a second rib member disposed along the second plane and rigidly attached to the first link member and the second link member respectively, wherein both of the ends of the first and second link members are closer to a base end of the boom than a distal end of the boom and a maximum height of the cross-brace in a length direction of the boom is less than a maximum width of the cross-brace in a width direction of the boom perpendicular to the length direction. 12. The pipelaying machine of claim 11 , wherein the first link member and the second link member are configured to intersect at a common mid-point, and wherein the first rib member and the second rib member are configured to intersect at the common mid-point. 13. The pipelaying machine of claim 12 , wherein the common mid-point is located at less than 50% of the length associated with the pair of posts. 14. The pipelaying machine of claim 13 , wherein the common mid-point is located at less than 30% of the length associated with the pair of posts. 15. The pipelaying machine of claim 11 , wherein the maximum height of the cross-brace is less than 50% of the length associated with the pair of posts. 16. The pipelaying machine of claim 15 , wherein the maximum height of the cross-brace is less than 30% of the length associated with the pair of posts. 17. The pipelaying machine of claim 11 , wherein a width of each of the first and second link members and a width of each of the first and second rib members is less than or equal to a width of one post from the pair of posts. 18. The pipelaying machine of claim 11 , wherein the first rib member is coterminous in length with the first link member and the second rib member is coterminous in length with the second link member. 19. The pipelaying machine of claim 11 , wherein each post is disposed in an angular relation to the second plane such that first distal ends of respective ones of the posts are proximate to each other and second distal ends of respective ones of the posts are spaced apart from each other. 20. The pipelaying machine of claim 19 , wherein a pair of symmetrical windows formed between the first link member and the second link member and the pair of posts defines a total area less than each of a first total area of a first window between the cross-brace and the distal end of the boom and a second total area of a second window between the cross-brace and the base end of the boom.