You surely can store a lot of data in a QR code; it can store 2953 bytes of data, which is nearly twice the size of a standard TCP/IP packet originated on an Ethernet network, so it's pretty powerful.
You will need to define some header for each QR code that describes its position in the stream required to rebuild the data. It'll be something like
filename chunk 12 of 96, though encoded in something better than plain text. (Eight bytes for filename, one byte each for chunk number and total number of chunks -- a maximum of 256 QR codes, one simple ten-byte answer, still leaving 2943 bytes per code.)
You will probably also want to use some form of forward error correction such as erasure codes to encode sufficient redundant data to allow for mis-reads of either individual QR codes or entire missing QR codes to be transparently handled well. While you may be able to take an existing library, such as for Reed-Solomon codes to provide the ability to fix mis-reads within a QR code, handling missing QR codes entirely may take significantly more effort on your part.
Using erasure codes will of course reduce the amount of data you can transmit -- instead of all 753,408 bytes (256 * 2943), you will only have 512k or 384k or even less available to your final images -- depending upon what code rate you choose.