Fluid mixing device and fluid delivery tube set including same

We claim: 1 . A fluid injector system, the system comprising: an injector head comprising a first syringe port and a second syringe port, and a first reciprocally driven piston and a second reciprocally driven piston; a first syringe connected to the first syringe port, wherein the first syringe comprises a first plunger releasably connectable to the first reciprocally driven piston, and a first port at a distal end of the first syringe; a second syringe connected to the second syringe port, wherein the second syringe comprises a second plunger releasably connectable to the second reciprocally driven piston, and a second port at a distal end of the second syringe; and a fluid mixing device comprising: a first fluid inlet in fluid communication with the first syringe and configured to conduct the first injection fluid in a first direction, the first fluid inlet having a first redirecting surface; a second fluid inlet in fluid communication with the second syringe and configured to conduct the second injection fluid in a second direction, the second fluid inlet having a second redirecting surface; a mixing chamber in fluid communication with the first fluid inlet and the second fluid inlet and having a third redirecting surface, the mixing chamber configured to mix the first injection fluid and the second injection fluid, wherein the mixing chamber comprises a first inlet distal to the third redirecting surface and a second inlet distal to the third redirecting surface, wherein the first redirecting surface is positioned distal to the first fluid inlet and at least partially faces the first inlet to the mixing chamber, and wherein the second redirecting surface is positioned distal to the second fluid inlet and at least partially faces the second inlet to the mixing chamber; and an outlet port coupled to the outlet tube and in fluid communication with the mixing chamber, wherein the first redirecting surface is configured to redirect the first injection fluid in a first different direction from the first direction to enter the mixing chamber along the first different direction, and wherein the second redirecting surface is configured to redirect the second injection fluid in a second different direction from the second direction to enter the mixing chamber along the second different direction, wherein the first different direction and the second different direction are selected so that the first injection fluid and the second injection fluid contact the third redirecting surface of the mixing chamber to turbulently mix the first injection fluid and the second injection fluid together in the mixing chamber, and wherein the mixture of the first injection fluid and the second injection fluid exits the fluid mixing device via the outlet port. 2 . The fluid injector system of claim 1 , wherein the fluid mixing device further comprising at least one of a first check valve in the first fluid inlet; and a second check valve in the second fluid inlet. 3 . The fluid injector system of claim 2 , wherein the first fluid inlet and the second fluid inlet of the fluid mixing device have a non-circular cross-sectional shape, and wherein the first check valve and the second check valve have a circular cross-sectional shape. 4 . The fluid injector system of claim 1 , wherein the first fluid inlet and the second fluid inlet have a first inlet port and a second inlet port, respectively, wherein the first redirecting surface and second redirecting surface are positioned distally relative to the first inlet port and second inlet port, respectively, and wherein the third redirecting surface is positioned proximally relative to the outlet port, the first redirecting surface, and the second redirecting surface. 5 . The fluid injector system of claim 4 , wherein at least one of the first redirecting surface and the second redirecting surface each have a substantially concave-shaped surface facing the first inlet port and a second inlet port, respectively. 6 . The fluid injector system of claim 4 , wherein the third redirecting surface has a substantially concave-shaped surface facing the outlet port. 7 . The fluid injector system of claim 1 , wherein the first inlet port and the second inlet port have a tapered end surface. 8 . The fluid injector system of claim 1 , wherein the outlet port has an axis parallel to an axis of the first fluid inlet and an axis of the second fluid inlet. 9 . The fluid injector system of claim 8 , wherein the axis of the outlet port extends between the axis of the first fluid inlet and the axis of the second fluid inlet. 10 . The fluid injector system of claim 1 , wherein each of the first redirecting surface and the second redirecting surface are concave-shaped and face a direction of fluid flow of the first injection fluid in the first fluid inlet and the second injection fluid in the second fluid inlet, respectively. 11 . The fluid injector system of claim 1 , wherein the first different direction and the second different direction are angled toward each other with a 0° to 90° angle so that the first fluid and the second fluid directly impact each other in the mixing chamber to turbulently mix. 12 . A fluid mixing device for mixing a first injection fluid and a second injection fluid, the fluid mixing device comprising: a first fluid inlet configured to conduct the first injection fluid in a first direction, the first fluid inlet having a first redirecting surface; a second fluid inlet configured to conduct the second injection fluid in a second direction, the second fluid inlet having a second redirecting surface; a mixing chamber in fluid communication with the first fluid inlet and the second fluid inlet and having a third redirecting surface; and an outlet port in fluid communication with the mixing chamber and distal to the first fluid inlet and the second fluid inlet, wherein the first fluid inlet and the second fluid inlet have a first inlet port and a second inlet port, respectively, wherein the first redirecting surface and the second redirecting surface are positioned distally relative to the first inlet port and the second inlet port, respectively, and wherein the third redirecting surface is positioned proximally relative to the outlet port, the first redirecting surface, and the second redirecting surface, wherein the first redirecting surface is configured to redirect the first injection fluid in a first different direction from the first direction to enter the mixing chamber along the first different direction, and the second redirecting surface is configured to redirect the second injection fluid in a second different direction from the second direction to enter the mixing chamber along the second different direction, wherein the first different direction and the second different direction are angled toward each other with a 0° to 90° angle so that the first fluid and the second fluid directly impact each other in the mixing chamber to turbulently mix. 13 . A fluid mixing device of claim 12 , wherein the first fluid and the second fluid in the mixing chamber also contact the third redirecting surface while turbulently mixing. 14 . A fluid mixing device of claim 13 , wherein the third redirecting surface redirects the turbulently mixed first fluid and second fluid toward the outlet port. 15 . A fluid mixing device of claim 12 , wherein the mixing chamber further comprises a first mixing chamber inlet, wherein the first mixing chamber inlet is distal to the third redirecting surface, and wherein the first different direction is at least partially angled towards the