초록 ▼

A bracket for supporting a vehicle control module, such as a powertrain control module, is disclosed. The bracket includes a body having a base wall, nodes or support posts, and side walls. The base wall includes back and module-receiving sides. An array of intersecting ribs is formed on the back si

A bracket for supporting a vehicle control module, such as a powertrain control module, is disclosed. The bracket includes a body having a base wall, nodes or support posts, and side walls. The base wall includes back and module-receiving sides. An array of intersecting ribs is formed on the back side while at least one array of honeycomb segments is formed on the module-receiving side. At least one of the honeycomb segments includes a top layer. Substrate attachment arms extend outwardly from the side walls. Support posts extend from the back side of the base wall. Three intersecting ribs are provided, generally forming a triangle. One or more additional ribs may be provided. The intersecting ribs are hollow. The individual ribs function as structural beams that connect to and thus work in conjunction with the nodes or support posts and the honeycomb to provide optimum stiffness to the bracket.

대표청구항 ▼

1. A bracket for a control module comprising: a bracket body having a base wall and side walls extending from said base wall, said base wall including back and module-receiving sides;a plurality of intersecting ribs formed on said back side of said base wall;a plurality of nodes to which said ribs a

1. A bracket for a control module comprising: a bracket body having a base wall and side walls extending from said base wall, said base wall including back and module-receiving sides;a plurality of intersecting ribs formed on said back side of said base wall;a plurality of nodes to which said ribs attach;an array of honeycomb segments formed on said module-receiving side; anda substrate attachment arm extending from and fixed to one of said side walls. 2. The bracket for a control module of claim 1 including two spaced apart arrays of honeycomb segments. 3. The bracket for a control module of claim 2 wherein each of said two spaced apart arrays of honeycomb segments has a depth and wherein the depth of one of said arrays is greater than the depth of the other of said arrays. 4. The bracket for a control module of claim 1 further including a support post extending from said back side of said base wall. 5. The bracket for a control module of claim 4 wherein said support post is formed substantially at the intersection of two of said intersecting rib. 6. The bracket for a control module of claim 1 wherein three of said intersecting ribs are provided, said three ribs generally defining a triangle, said triangle defined by a first rib, a second rib and a third rib, a first node to which said first and second ribs attach, a second node to which said first and third ribs attach, and a third node to which said second and third ribs attach, said combination of said first node, said first rib, and said second node define a first beam, the combination of said first node, said second rib, and third node define a second beam, and the combination of said second node, said third rib and said third node define a third beam. 7. The bracket for a control module of claim 6 further including a fourth rib and a forth node to which said forth rib is attached. 8. The bracket for a control module of claim 1 wherein said intersecting ribs are hollow. 9. The bracket for a control module of claim 1 further including module attachment structures extending from said module-receiving side of said base wall. 10. The bracket for a control module of claim 1 wherein said array of honeycomb segments includes an upper layer, a lower layer, and a honeycomb segment sandwiched therebetween. 11. A bracket for a control module comprising: a body having a side walls and a base wall having back and module-receiving sides;a plurality of intersecting ribs formed on said back side, at least one of said plurality of intersecting ribs extending over and onto one of said side walls;a plurality of nodes to which said ribs attach;an array of honeycomb segments formed on said module-receiving side; andan attachment arm extending from one of said side walls. 12. The bracket for a control module of claim 11 further including a support post extending from said back side of said base wall. 13. The bracket for a control module of claim 12 wherein said support post is formed substantially at the intersection of two of said intersecting ribs. 14. The bracket for a control module of claim 11 wherein three of said intersecting ribs are provided and generally define a triangle, said triangle defined by a first rib, a second rib and a third rib, a first node to which said first and second ribs attach, a second node to which said first and third ribs attach, and a third node to which said second and third ribs attach, said combination of said first node, said first rib, and said second node define a first beam, the combination of said first node, said second rib, and third node define a second beam, and the combination of said second node, said third rib and said third node define a third beam. 15. The bracket for a control module of claim 14 further including a fourth rib and a forth node to which said forth rib is attached. 16. The bracket for a control module of claim 11 wherein said intersecting ribs are hollow. 17. The bracket for a control module of claim 11 further including module attachment structures extending from said module-receiving side of said base wall. 18. The bracket for a control module of claim 11 wherein said array of honeycomb segments includes an upper layer, a lower layer, and a honeycomb segment sandwiched therebetween. 19. A bracket for a control module comprising: a body having a base wall with back and module-receiving sides and side walls extending from said base wall, at least one cooling slot formed in said base wall;a plurality of intersecting ribs formed on said back side of said base wall;a plurality of nodes to which said ribs attach;an array of honeycomb segments formed on said module-receiving side; anda substrate attachment arm extending from one of said side walls. 20. The bracket for a control module of claim 19 wherein said plurality of ribs define a triangle, said triangle is defined by a first rib, a second rib and a third rib, a first node to which said first and second ribs attach, a second node to which said first and third ribs attach, and a third node to which said second and third ribs attach, said combination of said first node, said first rib, and said second node define a first beam, the combination of said first node, said second rib, and third node define a second beam, and the combination of said second node, said third rib and said third node define a third beam.