Drip chamber

What is claimed is: 1. A drip chamber comprising: a first end comprising an inlet at an upper end of the drip chamber; a second end comprising an outlet at a lower end of the drip chamber; a spike integrally coupled with said first end; a drip forming orifice coupled with said spike; a check valve disposed between and coupled with said spike and said drip forming orifice, said check valve configured for managing fluid flowing between said inlet and said outlet through an interior flow passage extending at least through said spike, said drip forming orifice and said check valve; wherein the interior flow passage forms the inlet at a first end of the interior flow passage and the outlet at a second end of the interior flow passage, wherein the interior flow passage is disposed within the spike, the drip forming orifice, and the check valve such that fluid flows entirely through the interior flow passage as it flows from the inlet toward outlet, and wherein the check valve is a one-way check valve that allows a first fluid to flow from the inlet toward the outlet through the interior flow passage and prohibits a second fluid from flowing from the outlet toward the inlet through the interior flow passage; and an enclosing wall coupling said first end with said second end, said enclosing wall housing within at least said spike, said check valve and said drip forming orifice, wherein the inlet at the upper end of the drip chamber fluidly communicates directly with a first fluid container containing the first fluid, and the drip forming orifice communicates with a fluid line from a second container containing the second fluid, and wherein the check valve prohibits the second fluid from flowing from the fluid line toward the inlet at the upper end of the drip chamber. 2. The drip chamber of claim 1 , further comprising: a pressure damping elastic component comprising: an air holding portion of said drip chamber, said air holding portion configured for holding air; and at least a portion of said enclosing wall having an elasticity, wherein said air holding portion and said at least a portion of said enclosing wall having an elasticity are configured for damping a pressure pulse from an infusion pump, said infusion pump being fluidly coupled with said drip chamber. 3. The drip chamber of claim 1 , further comprising: a pressure damper configured for shielding said check valve from a negative transient pressure, said pressure damper comprising: a flow resistance channel configured for providing a hydraulic resistance to the first fluid flowing in a first direction from said outlet to said inlet; and a pressure damping elastic component comprising: an air holding portion of said drip chamber, said air holding portion configured for holding air; and at least a portion of said enclosing wall having an elasticity, wherein said air holding portion and said at least a portion of said enclosing wall having an elasticity are configured for damping a pressure pulse from an infusion pump, said infusion pump being fluidly coupled with said drip chamber. 4. The drip chamber of claim 1 , wherein said drip forming orifice comprises: a flow resistance channel configured for providing a hydraulic resistance to the first fluid flowing from said outlet to said inlet. 5. The drip chamber of claim 1 , wherein said check valve comprises: a bypass mechanism configured for opening said check valve in response to receiving an opening trigger, thereby releasing the first fluid flowing in a first direction through said check valve from said outlet to said inlet. 6. The drip chamber of claim 5 , wherein said opening trigger is a threshold pressure of said first fluid flowing from said outlet to said inlet. 7. The drip chamber of claim 5 , wherein said opening trigger is a threshold force applied against said check valve, thereby deforming said check valve from a first shape to a second shape.