Systems, apparatuses and methods of machining pipes and/or pipe flanges

The invention claimed is: 1. A pipe machining apparatus comprising: a frame; a tool carrier coupled to and rotatable relative to the frame, wherein the tool carrier defines an opening therein; a bridge member coupled to the tool carrier and extending across the opening of the tool carrier; a first tool support mounted on the bridge member and supporting a first tool, the first tool being configured to perform a first machining operation as the tool carrier rotates relative to the frame, the first tool support being movable relative to the bridge member to be positioned at a variety of positions along the bridge member; a second tool support mounted on the bridge member and supporting a second tool, the second tool being configured to perform a second machining operation as the tool carrier rotates relative to the frame, the second tool support being movable relative to the bridge member to be positioned at a variety of positions along the bridge member; and an advancing mechanism coupled to the bridge member and configured to move the bridge member, the first tool support, the first tool, the second tool support, and the second tool relative to the tool carrier. 2. The pipe machining apparatus of claim 1 , wherein each machining operation is at least one of facing a flange of a pipe and cutting a groove in a flange of a pipe. 3. The pipe machining apparatus of claim 1 , wherein, during movement as a result of the advancing mechanism: the first tool moves from an outer diameter of a flange of a pipe toward an inner diameter of the flange, and the second tool moves from the inner diameter of the flange toward an outer diameter of the flange. 4. The pipe machining apparatus of claim 1 , wherein each tool support includes a base coupled to the bridge member and a movable member coupled to the base, each movable member being movable relative to the respective base. 5. The pipe machining apparatus of claim 1 , wherein the bridge member is symmetrical about a central plane extending through a center of the bridge member and generally parallel to first and second opposing surfaces of the bridge member. 6. The pipe machining apparatus of claim 1 , further comprising a third tool support and a third tool supported by the third tool support, the third tool being configured to perform a third machining operation which is different than the first and second machining operations, wherein the third tool support and the first and second tool supports and bridge member are interchangeably couplable to and rotatable with the tool carrier. 7. The pipe machining apparatus of claim 6 , wherein the tool carrier includes a first coupling location and a second coupling location, wherein the third tool support is coupled to the tool carrier at one of the first coupling location or the second coupling location, and wherein the bridge member is coupled to the tool carrier at both the first coupling location and the second coupling location. 8. The pipe machining apparatus of claim 7 , wherein, when the third tool support is coupled to the one of the first coupling location and the second coupling location, a counter-balance is coupled to the tool carrier at the other of the first coupling location and the second coupling location. 9. A pipe machining apparatus comprising: a frame; a tool carrier coupled to and rotatable relative to the frame, wherein the tool carrier defines an opening therein; and a bridge member coupled to the tool carrier and extending across the opening of the tool carrier; a first tool support coupled to the bridge member and supporting a first tool, the first tool being configured to perform a first machining operation as the tool carrier rotates relative to the frame; and a second tool support coupled to the bridge member and supporting a second tool, the second tool being configured to perform a second machining operation as the tool carrier rotates relative to the frame, wherein when each machining operation is facing a flange, the first and second tools are configured to face the flange, and wherein when each machining operation is cutting a groove, the first tool is configured to cut a first edge of the groove and the second tool is configured to cut a second edge of the groove. 10. A pipe machining apparatus comprising: a frame; a tool carrier coupled to and rotatable relative to the frame, wherein the tool carrier defines an opening therein; and a bridge member coupled to the tool carrier and extending across the opening of the tool carrier; a first tool support coupled to the bridge member and supporting a first tool, the first tool being configured to perform a first machining operation as the tool carrier rotates relative to the frame; and a second tool support coupled to the bridge member and supporting a second tool, the second tool being configured to perform a second machining operation as the tool carrier rotates relative to the frame, wherein the first machining operation is facing a flange of a pipe and the second machining operation is cutting a groove in the flange of the pipe. 11. A pipe machining apparatus comprising: a frame; a tool carrier coupled to and rotatable relative to the frame, wherein the tool carrier defines an opening therein; a bridge member coupled to the tool carrier and extending across the opening of the tool carrier, the bridge member includes a first pair of angled surfaces angling toward each other in a first side of the bridge member and extending along a length of the bridge member, and a second pair of angled surfaces angling toward each other in a second side of the bridge member opposite the first side and extending along the length of the bridge member; a first tool support mounted on the bridge member and supporting a first tool, the first tool being configured to perform a first machining operation as the tool carrier rotates relative to the frame, the first tool support engaging with the first pair of angled surfaces when coupled to the bridge member; and a second tool support mounted on the bridge member and supporting a second tool, the second tool being configured to perform a second machining operation as the tool carrier rotates relative to the frame, the second tool support engaging with the second pair of angled surfaces when coupled to the bridge member. 12. The pipe machining apparatus of claim 11 , wherein the bridge member is symmetrical about a central plane extending through a center of the bridge member and generally parallel to first and second opposing surfaces of the bridge member.