Systems and methods for adhesive injection for node assembly

What is claimed is: 1 . A joint member for forming a connection between two or more tubes, the joint member comprising: two or more acceptor ports, wherein each acceptor port is formed with an inner protrusion that (1) is configured to be fitted inside a corresponding tube of the two or more tubes when the joint is connected to the corresponding tube and (2) includes one or more fluid delivery paths built into a side wall of the inner protrusion; and one or more fluid delivery ports that are in fluid communication with a space between an inner surface of the corresponding tube and an outer surface of the inner protrusion when the joint is connected to the corresponding tube, said fluid communication provided through the one or more fluid delivery paths built into the side wall of the inner protrusion. 2 . The joint member of claim 1 , wherein at least one of the one or more fluid delivery ports is an adhesive injection port. 3 . The joint member of claim 1 , wherein at least one of the one or more fluid delivery ports is a vacuum port. 4 . The joint member of claim 1 , wherein at least one of the one or more fluid delivery ports is in fluid communication with a container that holds a volume of adhesive. 5 . The joint member of claim 4 , wherein the volume of adhesive is substantially equal to an amount of adhesive needed to fill the space between the inner surface of the corresponding tube and the outer surface of the inner protrusion when the joint is connected to the corresponding tube. 6 . The joint member of claim 4 , wherein the container that holds a volume of adhesive is in fluid communication with the fluid delivery port with an air tight sealed connection. 7 . A method of forming a bond between a joint and a corresponding tube connected to the joint, the method comprising: fitting an inner protrusion of the joint into the corresponding tube, wherein the inner protrusion includes one or more fluid delivery paths built into a side wall of the inner protrusion that provide a channel from one or more fluid delivery ports provided on the joint to a space between an inner surface of the corresponding tube and an outer surface of the inner protrusion; heating at least a portion of the joint to a surface temperature of at least about 50° C.; attaching (1) an adhesive source to at least one of the fluid delivery ports and (2) an negative pressure source to at least one of the fluid delivery ports; and injecting adhesive into the space between the inner surface of the corresponding tube and the outer surface of the inner protrusion by (1) providing adhesive from the adhesive source through the at least one fluid delivery ports and (2) pulling adhesive into the space by the negative pressure source on the at least one of the fluid delivery port. 8 . The method of claim 7 , further comprising removing the one or more fluid delivery ports provided on the joint after the adhesive sets. 9 . The method of claim 7 , wherein at least a portion of the surface of the inner protrusion comprises one or more centering features. 10 . The method of claim 9 , wherein the centering features force a predetermined spacing distance between the surface of the inner protrusion and an inner surface of the corresponding tube. 11 . The method of claim 9 , wherein the centering features provide one or more channels to spread adhesive injected into the space between the inner surface of the corresponding tube and the outer surface of the inner protrusion. 12 . The method of claim 7 , wherein the adhesive has a viscosity of at least about 1,000 cP measured at 25° C. 13 . A vehicle chassis module or substructure comprises: a plurality of customized joint members and tubes, wherein the joint member comprises two or more acceptor ports, and each acceptor port is formed with an inner protrusion that (1) is configured to be fitted inside a corresponding tube of the two or more tubes when the joint is connected to the corresponding tube and (2) includes one or more fluid delivery paths built into a side wall of the inner protrusion. 14 . The vehicle chassis module of claim 13 , wherein the joint member further comprises one or more fluid delivery ports that are in fluid communication with a space between an inner surface of the corresponding tube and an outer surface of the inner protrusion when the joint is connected to the corresponding tube, said fluid communication provided through the one or more fluid delivery paths built into the side wall of the inner protrusion. 15 . The vehicle chassis module of claim 13 , wherein at least one of the one or more fluid delivery ports is an adhesive injection port. 16 . The vehicle chassis module of claim 13 , wherein at least one of the one or more fluid delivery ports is a vacuum port. 17 . The vehicle chassis module of claim 13 , wherein at least one of the one or more fluid delivery ports is in fluid communication with a container that holds a volume of adhesive. 18 . The vehicle chassis module of claim 17 , wherein the volume of adhesive is substantially equal to an amount of adhesive needed to fill the space between the inner surface of the corresponding tube and the outer surface of the inner protrusion when the joint is connected to the corresponding tube. 19 . The vehicle chassis module of claim 17 , wherein the container that holds a volume of adhesive is in fluid communication with the fluid delivery port with an air tight sealed connection. 20 . The vehicle chassis module of claim 13 , wherein at least a portion of the surface of the inner protrusion comprises one or more centering features. 21 . The vehicle chassis module of claim 13 , wherein the centering features force a predetermined spacing distance between the surface of the inner protrusion and an inner surface of the corresponding tube. 22 . The vehicle chassis module of claim 21 , wherein the centering features force a predetermined spacing distance between the surface of the inner protrusion and an inner surface of the corresponding tube. 23 . The vehicle chassis module of claim 21 , wherein the centering features provide one or more channels to spread adhesive injected into the space between the inner surface of the corresponding tube and the outer surface of the inner protrusion.