Microfluidic perfusion cell culture system

What is claimed is: 1. A micro-fluidic system for a perfusion cell culture, the system comprising: a substrate; a micro-fluid injection channel defined in the substrate to guide fluid along the substrate; at least two micro-fluid branch channels defined in the substrate, wherein the branch channels are branched from the micro-fluid injection channel; a plurality of micro-fluid outlet channels defined in the substrate, wherein each of the outlet channels extends from a distal end of a respective branch channel of the plurality of branch channels to a top face of the substrate, wherein each outlet channel has a through-hole defined in the top face portion of the substrate; and well plates disposed on the top face of the substrate, wherein each of the well plates fluid-communicates with each outlet channel, wherein the substrate has a plurality of cavities defined in a top face portion thereof, wherein each through-hole in each outlet channel communicates with each cavity, wherein each well plate has at least one bottom-hole, and wherein a longest width of each cavity is smaller than a shortest width of a bottom face of each well plate, wherein a space is defined between a bottom face of each well plate and an inner face of each cavity, wherein fluid discharged from each through-hole is stored in each cavity, and, then, the fluid from each cavity is inflowed to a respective well plate through a respective at least one bottom-hole. 2. The system according to claim 1 , wherein lengths of the branch channels are different from each other so that the branch channels have different flow rates based on Poiseuille's law. 3. The system according to claim 2 , wherein the micro-fluid branch channels are sequentially arranged in a flow direction of the fluid guided by the micro-fluid injection channel, wherein the lengths of the branch channels are configured such that the flow rates increase or decrease gradually between the micro-fluid branch channels. 4. The system according to claim 1 , wherein the substrate has an inlet channel defined therein for injecting micro-fluid to the injection channel, wherein the substrate has a bubble trap defined therein between the inlet channel and the injection channel. 5. The system according to claim 1 , wherein each well plate has a lateral opening defined in an upper end of a side wall thereof, wherein a culture is discharged from each well plate through a lateral opening thereof. 6. A micro-fluidic system for a perfusion cell culture, the system comprising: a substrate; a micro-fluid injection channel defined in the substrate to guide fluid along the substrate; at least two micro-fluid branch channels defined in the substrate, wherein the branch channels are branched from the micro-fluid injection channel; micro-fluid outlet channels defined in the substrate, wherein each of the outlet channels extends from a distal end of each branch channel to a top face of the substrate, wherein each outlet channel has each through-hole defined in the top face portion of the substrate; and well plates disposed on the top face of the substrate, wherein each of the well plates fluid-communicates with each outlet channel, wherein the well plates are arranged to form a single row, wherein the substrate has a further micro-fluid injection channel defined therein, wherein the single row is interposed between the micro-fluid injection channel and said further micro-fluid injection channel, wherein the micro-fluid injection channel is parallel to said further micro-fluid injection channel, wherein the substrate has at least two further micro-fluid branch channels defined therein, wherein the further micro-fluid branch channels are branched from said further micro-fluid injection channel, and wherein a distal end of each of the at least two micro-fluid branch channels joints with a distal end of a respective branch channel of the at least two further micro-fluid branch channels, wherein each of said further branch channels fluid-communicates with each micro-fluid outlet channel. 7. The system according to claim 6 , wherein lengths of the further branch channels are different from each other so that the further branch channels have different flow rates based on Poiseuille's law. 8. The system according to claim 7 , wherein the further micro-fluid branch channels are sequentially arranged in a flow direction of fluid discharged from the further injection channel, wherein the lengths of the further branch channels are configured such that the flow rates increase or decrease gradually between the further micro-fluid branch channels. 9. The system according to claim 6 , wherein the substrate has a further inlet channel defined therein for injecting micro-fluid to the further injection channel, wherein the substrate has a further bubble trap defined therein between the further inlet channel and the further injection channel. 10. The system according to claim 6 , wherein the substrate has mixing channels defined therein, wherein each mixing channel extends from a respective jointing point to a respective micro-fluid outlet channel. 11. The system according to claim 7 , wherein each mixing channel includes a meandering section.