Paper feeder and medium processing apparatus including the same

What is claimed is: 1. A paper feeder comprising: a load tray where cut-sheet-type media are loadable to be transported toward a downstream side out of the load tray in a transporting direction; a pickup member to pick up the cut-sheet-type media from the load tray; a separation unit to separate a cut-sheet-type medium from the picked up cut-sheet-type media, by rotatably contacting the cut-sheet-type medium while the separated cut-sheet type medium is transported toward the downstream side out of the load tray in the transporting direction; and a blowing unit coupled to the separation unit to be driven by the separation unit, to supply pulse air from the downstream side of the load tray toward the load tray in an inverse direction of the transporting direction, and to a front end portion of the cut-sheet-type media with respect to the transporting direction. 2. The paper feeder of claim 1 , wherein the blowing unit comprises: a blower to supply air; and a pulsation member connected to the separation unit to control the air supplied from the blower to pulsate, to supply the pulse air. 3. The paper feeder of claim 2 , wherein the pulsation member comprises: a windmill comprising at least one wing and connected to the separation unit to rotate; and a guide member to guide the air supplied from the blower to the windmill. 4. The paper feeder of claim 3 , wherein the guide member comprises: an air chamber, an air inlet connected to the blower, and an air outlet opened toward the load tray, wherein the windmill is located in the air chamber. 5. The paper feeder of claim 4 , wherein the at least one wing is to divide the air chamber into a plurality of sub chambers. 6. The paper feeder of claim 3 , wherein at least one portion of a side wall of the guide member is open, the guide member comprises an air inlet connected to the blower and an air outlet opened toward the load tray, the windmill comprises a blocking plate that corresponds to the at least one portion of the side wall of the guide member being open and is to form an air chamber along with the guide member, and the at least one wing is to divide the air chamber into a plurality of sub chambers. 7. The paper feeder of claim 3 , wherein the separation unit comprises: a feed roller to rotate in a first direction to transport the cut-sheet-type media picked up by the pickup member in the transporting direction; a retard roller to be engaged with the feed roller; a driving gear to provide a driving force to the retard roller in a second direction, to move the contacted cut-sheet-type medium in the inverse direction of the transporting direction; and a torque limiter to limit the driving force in the second direction transferred to the retard roller, wherein the windmill is to rotate together with the retard roller. 8. The paper feeder of claim 7 , wherein the retard roller comprises a rotation axis, and a roller portion coupled to the rotation axis to contact the feed roller, and the windmill is coupled to the rotation axis or the roller portion. 9. The paper feeder of claim 8 , wherein the torque limiter is to connect the driving gear and the rotation axis. 10. The paper feeder of claim 8 , wherein the torque limiter is to connect the rotation axis and the roller portion. 11. The paper feeder of claim 8 , wherein the windmill is connected to the rotation axis by at least one gear. 12. The paper feeder of claim 1 , further comprising: a sensor to detect excessive lifting of the front end portion of the cut-sheet-type media. 13. A medium processing apparatus comprising: a paper feeder to supply cut-sheet-type media, comprising: a load tray where the cut-sheet-type media are loadable to be transported toward a downstream side out of the load tray in a transporting direction; a pickup member to pick up the cut-sheet-type media from the load tray; a separation unit to separate a cut-sheet-type medium from the picked up cut-sheet-type media, by rotatably contacting the cut-sheet-type medium while the separated cut-sheet type medium is transported toward the downstream side out of the load tray in the transporting direction; and a blowing unit coupled to the separation unit to be driven by the separation unit, to supply pulse air from a downstream side of the load tray toward the load tray in an inverse direction of the transporting direction, and to a front end portion of the cut-sheet-type media with respect to the transporting direction; and a medium processor to process a supplied cut-sheet-type medium supplied from the paper feeder, among the picked-up cut-sheet-type media. 14. The medium processing apparatus of claim 13 , wherein the blowing unit comprises a blower, a windmill comprising at least one wing and connected to the separation unit to rotate, and a guide member to guide air supplied from the blower to the windmill. 15. The medium processing apparatus of claim 14 , wherein the guide member is to form an air chamber and comprises an air inlet connected to the blower and an air outlet opened toward the load tray, and the windmill is located in the air chamber. 16. The medium processing apparatus of claim 14 , wherein at least one portion of a side wall of the guide member is open, the guide member comprises an air inlet connected to the ventilator and an air outlet opened toward the load tray, the windmill comprises a blocking plate that corresponds to the at least one portion of the side wall of the guide member being open and is to form an air chamber along with the guide member, and the at least one wing is to divide the air chamber into a plurality of sub chambers. 17. The medium processing apparatus of claim 14 , wherein the separation unit comprises: a feed roller to rotate in a first direction to transport the sheet-type media picked up by the pickup member in the transporting direction; a retard roller to be engaged with the feed roller; a driving gear to provide a driving force to the retard roller in a second direction, to move the contacted cut-sheet-type medium in the inverse direction of the transporting direction; and a torque limiter to limit the driving force in the second direction transferred to the retard roller, wherein the windmill is to rotate together with the retard roller. 18. The medium processing apparatus of claim 13 , further comprising: a sensor to detect excessive lifting of the front end portion of the cut-sheet-type media. 19. The medium processing apparatus of claim 13 , wherein the medium processor comprises at least one of a reading unit to read images from the cut-sheet-type media and/or a printing unit to print images on the cut-sheet-type media.