Cell frame, cell stack, and redox flow battery

1 . A cell frame comprising a bipolar plate interposed between a positive electrode and a negative electrode of a redox flow battery, and a frame body configured to support the bipolar plate from an outer edge of the bipolar plate, the frame body having an inlet slit for introducing an electrolyte into the bipolar plate and an outlet slit for draining the electrolyte out of the bipolar plate, wherein the cell frame has an introduction-side flow guiding channel connecting to the inlet slit and extending in a width direction of the cell frame, a drainage-side flow guiding channel connecting to the outlet slit and extending in the width direction, and a diffusion channel unit configured to allow the introduction-side flow guiding channel to communicate with the drainage-side flow guiding channel; and the diffusion channel unit includes an introduction-side vertical channel branching off the introduction-side flow guiding channel and extending toward, but not directly communicating with, the drainage-side flow guiding channel, a drainage-side vertical channel branching off the drainage-side flow guiding channel and extending toward, but not directly communicating with, the introduction-side flow guiding channel, and one or a plurality of horizontal channels communicating with both the introduction-side vertical channel and the drainage-side vertical channel. 2 . The cell frame according to claim 1 , wherein the plurality of horizontal channels include a first horizontal channel extending from an end portion of the introduction-side vertical channel toward the drainage-side vertical channel, and a second horizontal channel extending from an end portion of the drainage-side vertical channel toward the introduction-side vertical channel. 3 . The cell frame according to claim 1 , wherein a width of the horizontal channel is smaller than a width of the introduction-side vertical channel and a width of the drainage-side vertical channel. 4 . The cell frame according to claim 3 , wherein the width of the horizontal channel is greater than or equal to 1/10 of, but smaller than, the width of the introduction-side vertical channel and the width of the drainage-side vertical channel. 5 . The cell frame according to claim 1 , wherein a depth of the horizontal channel is smaller than a depth of the introduction-side vertical channel and the drainage-side vertical channel. 6 . The cell frame according to claim 1 , wherein a plurality of diffusion channel units are arranged in the width direction of the cell frame; and adjacent ones of the diffusion channel units share the introduction-side vertical channel or the drainage-side vertical channel. 7 . The cell frame according to claim 1 , wherein the introduction-side flow guiding channel, the drainage-side flow guiding channel, and the diffusion channel unit are provided in the bipolar plate. 8 . The cell frame according to claim 1 , wherein the introduction-side flow guiding channel and the drainage-side flow guiding channel are provided in the frame body, and the diffusion channel unit is provided in the bipolar plate. 9 . A cell stack comprising the cell frame according to claim 1 . 10 . A redox flow battery comprising the cell stack according to claim 9 .