Burner assembly for a heating furnace

What is claimed is: 1. A burner assembly for a fuel-fired heating furnace, comprising: a burner body having an inlet opening to receive fuel delivered by a fuel control module, and, to receive an ambient source of primary air there-through, the burner body comprising a common outlet opening configured to receive a mixture of the fuel and the primary air, the common outlet opening comprising an open face, a back edge distal to the face, and two lateral edges, wherein the burner body includes an internal cavity having one or more turns that changes a direction of the entire mixture of fuel and air entering through the input opening by at least about 90 degrees, and wherein the inlet opening is located towards one of the lateral edges; a patch chamber configured to attach to the burner body and comprising a plurality of chamber walls extending away from the burner body, the plurality of chamber walls comprising a plurality of openings therein to allow secondary air there-through to mix with the mixture of fuel and primary air, wherein the patch chamber comprises a surface mount configured to engage a heat exchange module of a furnace; and an insert plate configured to cover the common outlet opening and to fit within the patch chamber and comprising one or more burner heads extending outward from the insert plate. 2. The assembly of claim 1 , wherein the inlet opening receives the fuel from an extension tube connected to a fuel delivery port of the fuel control module. 3. The assembly of claim 2 , wherein the burner body include a mounting ring to hold the extension tube and thereby fix an output orifice of the extension tube to a predefined offset distance from the input opening. 4. The burner assembly of claim 1 , wherein the burner body includes an internal cavity having Venturi near the inlet opening. 5. The burner assembly of claim 1 , wherein the burner body comprises an internal cavity and one or more baffle features on an edge of the internal cavity distal to the insert plate. 6. The burner assembly of claim 1 , wherein the burner body comprises an internal cavity and one or more dimple features on an edge of the internal cavity distal to the insert plate. 7. The burner assembly of claim 1 , wherein the burner body comprises an internal cavity and the internal cavity has a depth, and wherein the depth is smaller at a location farthest away from a turn within the burner body than at a location in the vicinity of the turn. 8. The burner assembly of claim 1 , wherein a cross-sectional area of openings in one or more of the burning heads can be adjusted to equalize a volumetric flow rate of the mixture of fuel and primary air passing out of each of the burner heads. 9. A fuel-fired heating furnace, comprising: the burner assembly of claim 1 , a fuel control module; and a heat exchange module having one or more heat exchange tubes, wherein each one of the burner heads is coupled to a different one of the heat exchange tubes. 10. The furnace of claim 9 , wherein the patch chamber connects the burner heads to the heat exchange module such that each one of the burner heads are situated at the orifice of different ones of the heat exchange tubes. 11. The furnace of claim 10 , wherein the insert plate of the patch chamber is coupled to the burner body so as to cover the common output opening. 12. The furnace of claim 9 , further including a furnace control module configured to a control signal that actuates one or more valves in the fuel control module to thereby cause the fuel control module deliver a regulated amount of the fuel to inlet opening of the burner body. 13. A method of manufacturing a burner assembly, comprising: forming a burner body having an inlet opening to receive fuel delivered by a fuel control module, and, to receive an ambient source of primary air there-through; and connecting one or more burner heads to a common outlet opening of the burner body to receive a mixture of the fuel and the primary air; the common outlet opening comprising an open face, a back edge distal to the face, and two lateral edges, wherein the burner body includes an internal cavity having one or more turns that changes a direction of the entire mixture of fuel and air entering through the input opening by at least about 90 degrees, and wherein the inlet opening is located towards one of the lateral edges; forming a patch chamber configured to attach to the burner body and comprising a plurality of chamber walls extending away from the burner body, the plurality of chamber walls comprising a plurality of openings therein to allow secondary air there-through to mix with the mixture of fuel and primary air, wherein the patch chamber comprises a surface mount configured to engage a heat exchange module of a furnace; and forming an insert plate configured to cover the common outlet opening and to fit within the patch chamber and comprising one or more burner heads extending outward from the insert plate. 14. The method of claim 13 , further including mounting the patch chamber to the heat exchange module and attaching the burner body to the patch chamber.