The card you selected is not suitable for this application. It has just plain RS-232 ports, it is not suitable for a multi-drop bus. You'll need to shop elsewhere for an EIA-485 style bus interface, you could only find those at industrial electronics suppliers. By far the best way is to go through the National Automatic Merchandising Association, the industry group that owns the MDB specification.
The 9-bit data format is just a trick and is used in the MDB protocol to mode-switch between address bytes and data bytes. All ports on the bus listen to address bytes, only the addressed port listens to data bytes.
The 9th bit is simply the parity bit that any UART can generate. The fundamental data size is still 8 bits. An UART auto-generates the parity bit from the way it was initialized, you can choose between mark, space, odd and even parity.
Now this is easy to do in a micro-controller that has an UART, the kind of processor used on a bus like this. You simply re-program the UART on-the-fly, telling it to generate mark parity when you send the address bytes. And re-program it again to space parity when you send the data bytes. Waiting for the fifo to empty will typically be necessary although it depends on the actual UART chip.
That is a lot harder to do on a regular Windows or Linux machine, there's a driver between the user mode program and the UART. The driver generates a "transmit buffer empty" status bit, like WaitCommmEvent() for EV_TXEMPTY on Windows, but this doesn't include the fifo empty status, it only indicates that the buffer is empty. A workaround would be to wait for the buffer empty status and then sleep() long enough to ensure that the fifo is emptied. A fifo is typically 16 bytes deep so sleep for 16 times the bit time. You'll need the datasheet for the UART on the card you selected to know these details for sure.