Hanger bracket

What is claimed is: 1. A hanger bracket for mounting a skewed beam at a junction of two adjacent beams, comprising; a supporting section configured to support the skewed beam; fixing flanges substantially perpendicular to the supporting section configured for attaching the bracket to the adjacent beams along surfaces of the fixing flanges positioned to engage respective ones of the adjacent beams when attached thereto, the surfaces defining planes that are non-parallel and non-coincident with each other, and holes in each of the fixing flanges, the holes extending through the planes of the fixing flanges; reinforcing faces located between the supporting section and each of the fixing flanges, wherein the reinforcing faces are inclined relative to the supporting section and fixing flanges, the reinforcing faces being inclined at an angle between 30 and 60 degrees relative to the supporting section; and holes in at least one of the supporting section and the reinforcing faces configured to receive fasteners to secure the skewed beam to the hanger bracket. 2. The hanger bracket as set forth in claim 1 , wherein the reinforcing faces are structured to bear the load of the skewed beam. 3. The hanger bracket as set forth in claim 1 , wherein the reinforcing faces form a diagonal inclination between the support section and the fixing flanges. 4. The hanger bracket as set forth in claim 1 , wherein the reinforcing faces are inclined at obtuse angles relative to the supporting section and fixing flanges. 5. The hanger bracket as set forth in claim 1 , wherein the supporting section has one or more holes configured to receive fasteners to secure the skewed beam to the hanger bracket. 6. The hanger bracket as set forth in claim 1 , wherein the reinforcing faces have one or more holes configured to receive fasteners to secure the skewed beam to the hanger bracket. 7. The hanger bracket as set forth in claim 1 , wherein the supporting section defines a lowermost plane of the bracket and holes in the reinforcing faces are positioned above the lowermost plane. 8. The hanger bracket as set forth in claim 1 , wherein each reinforcing face has a truncated triangular shape, whereby the supporting section is connected along one side of the truncated triangle and a fixing flange is connected along another side of the truncated triangle. 9. The hanger bracket as set forth in claim 1 , wherein the fixing flanges have groups of fixing holes and each group corresponds to overlap with the fixing holes of different girder brackets, over which the hanger bracket can be fixed. 10. The hanger bracket as set forth in claim 1 , wherein the hanger bracket is formed by folding a blank of sheet metal. 11. The hanger bracket as set forth in claim 1 , wherein each reinforcing face extends upward from an edge of the supporting section, and each fixing flange extends upward from an edge of one of the reinforcing faces. 12. The hanger bracket as set forth in claim 1 , wherein the reinforcing faces are inclined at a 45 degree angle relative to the supporting section. 13. A hanger bracket for mounting a skewed beam at a junction of two adjacent beams, comprising; a supporting section configured to support the skewed beam; fixing flanges substantially perpendicular to the supporting section configured for attaching the bracket to the adjacent beams, the fixing flanges lying in different planes to each other; reinforcing faces located between the supporting section and each of the fixing flanges, wherein the reinforcing faces are inclined relative to the supporting section and fixing flanges, the reinforcing faces being inclined at an angle between 30 and 60 degrees relative to the supporting section; and the reinforcing faces having one or more holes configured to receive fasteners to secure the skewed beam to the hanger bracket. 14. The hanger bracket as set forth in claim 13 , further comprising holes in the support section configured to receive fasteners to secure the skewed beam to the hanger bracket. 15. A hanger bracket for mounting a skewed beam at a junction of two adjacent beams, comprising; a supporting section configured to support the skewed beam; fixing flanges substantially perpendicular to the supporting section and substantially perpendicular to each other, the fixing flanges being configured for attaching the bracket to the adjacent beams along surfaces of the fixing flanges, and holes in each of the fixing flanges; reinforcing faces located between the supporting section and each of the fixing flanges, wherein each reinforcing face is inclined relative to the supporting section and fixing flanges; and holes in at least one of the supporting section and the reinforcing faces configured to receive fasteners to secure the skewed beam to the hanger bracket; wherein the supporting section comprises a four-sided plate including opposite parallel side edges, each reinforcing face comprising a four-sided plate and extending from one of the side edges of the supporting section, each reinforcing face comprising opposite non-parallel side edges and opposite lateral edges extending between the side edges, a first non-parallel side edge of each reinforcing face being connected to a respective side edge of the support section, and a second non-parallel side edge of the each reinforcing face connecting the reinforcing face to a respective fixing flange. 16. The hanger bracket as set forth in claim 15 , wherein each fixing flange comprises a five-sided plate. 17. The hanger bracket as set forth in claim 16 , wherein the supporting section is square.