Brazing system

What is claimed is: 1 . A brazing system, comprising: a stand; a table moveable along the stand in a first axial direction; a shuttle movable along the table in a second axial direction toward and away from an object having a first tube extending in the first axial direction, and a second tube adjacent to the first tube and also extending in the first axial direction, wherein the second axial direction is perpendicular to the first axial direction; a torch carriage positionable along the shuttle in a third axial direction perpendicular to the first axial direction and the second axial direction; a first brazing torch attached to the torch carriage and configured for making a first brazed connection along the first tube; and a second brazing torch attached to the torch carriage and configured for making a second brazed connection along the second tube while the first brazed connection is made, wherein the table automatically moves back and forth in the first axial direction while the first and second brazed connections are made, to adjust respective positions of the first brazing torch along the first tube and the second brazing torch along the second tube during a brazing operation performed on the object. 2 . The brazing system of claim 1 , wherein a position of the torch carriage along the shuttle is manually adjustable. 3 . The brazing system of claim 1 , further comprising a code scanner for identifying the object to be brazed by reading a code located on the object. 4 . The brazing system of claim 1 , wherein the first brazing torch and the second brazing torch each have a plurality of flame outlets. 5 . The brazing system of claim 1 , wherein a portion of the first brazing torch and a portion of the second brazing torch are located between the first tube and the second tube during the brazing operation. 6 . The brazing system of claim 1 , further comprising a mass flow controller configured to control respective flows of gas to the first brazing torch and the second brazing torch during the brazing operation. 7 . The brazing system of claim 1 , wherein the object is a heat exchanger coil. 8 . A brazing system, comprising: a first brazing torch; a second brazing torch; a third brazing torch; a torch carriage having an actuator system configured to rotate the first brazing torch, the second brazing torch, and the third brazing torch simultaneously from a substantially vertical orientation to a substantially horizontal orientation; and a mass flow controller configured to control respective flows of gas to each of the first brazing torch, the second brazing torch, and the third brazing torch, wherein the mass flow controller controls the respective flows of gas based on either a first heating profile for making a single brazed connection using two of the first brazing torch, the second brazing torch, and the third brazing torch, and a second heating profile for making two brazed connections simultaneously using each of the first brazing torch, the second brazing torch, and the third brazing torch. 9 . The brazing system of claim 8 , further comprising: a stand; a table supported by the stand; and a shuttle movable along the table in a first direction, wherein the torch carriage is positionable along the shuttle in a second direction perpendicular to the first direction. 10 . The brazing system of claim 9 , wherein a position of the torch carriage along the shuttle is manually adjustable. 11 . The brazing system of claim 9 , wherein the table automatically moves the first brazing torch, the second brazing torch, and the third brazing torch upward and downward during a brazing operation. 12 . The brazing system of claim 8 , further comprising a code scanner for identifying a part to be brazed by reading a code located on the part. 13 . The brazing system of claim 8 , wherein each of the first brazing torch, the second brazing torch, and the third brazing torch has a plurality of flame outlets. 14 . A brazing system, comprising: a stand; a table supported by the stand; a shuttle movable along the table in a first direction; a torch carriage positionable along the shuttle in a second direction perpendicular to the first direction; a first brazing torch attached to the torch carriage and configured for making a first brazed connection along a first tube; a second brazing torch attached to the torch carriage and configured for making a second brazed connection along a second tube that is adjacent to the first tube; and a mass flow controller configured to control respective flows of gas to each of the first brazing torch and the second brazing torch, wherein the mass flow controller controls the respective flows of gas based on either a first heating profile for making a single brazed connection using only one of the first brazing torch and the second brazing torch, and a second heating profile for making two brazed connections simultaneously using both of the first brazing torch and the second brazing torch. 15 . The brazing system of claim 14 , wherein a position of the torch carriage along the shuttle is manually adjustable. 16 . The brazing system of claim 14 , further comprising a code scanner for identifying a part to be brazed by reading a code located on the part. 17 . The brazing system of claim 16 , wherein the part is a heat exchanger coil. 18 . The brazing system of claim 14 , wherein the first brazing torch and the second brazing torch each have a plurality of flame outlets. 19 . The brazing system of claim 14 , wherein a portion of the first brazing torch and a portion of the second brazing torch are located between the first tube and the second tube during the brazing operation. 20 . The brazing system of claim 14 , wherein the table automatically moves the first brazing torch and the second brazing torch up and down during a brazing operation to adjust respective positions of the first brazing torch along the first tube and the second brazing torch along the second tube during a brazing operation. 21 . A brazing system, comprising: a stand; a table supported by the stand; a shuttle movable along the table in a first direction; a torch carriage positionable along the shuttle in a second direction perpendicular to the first direction; a brazing torch attached to the torch carriage and configured for making a brazed connection along a tube; and a mass flow controller configured to control a flow of gas to the brazing torch, wherein the mass flow controller controls the flow of gas based on either a first heating profile for making a single brazed connection using only the brazing torch, and a second heating profile for making two brazed connections simultaneously using both of the brazing torch and a second brazing torch.