Vacuum drying apparatus and vacuum drying method using the same

What is claimed is: 1. A vacuum drying apparatus comprising a chamber in which a substrate table is arranged, the chamber being provided with a wind deflector therein, wherein the wind deflector comprises a top opening, a bottom opening and a body part connecting the top opening with the bottom opening, and a material on the substrate table is covered by the wind deflector, wherein during the vacuum drying operation, the bottom opening is in contact with a surface of the substrate table, and there is a gap between the top opening and the top of the chamber such that a gas flow in the wind deflector is directed from the surface of the substrate table through the top opening of the wind deflector to external of the wind deflector and then out of the chamber. 2. The vacuum drying apparatus according to claim 1 , wherein the body part of the wind deflector is a side wall connecting the top opening with the bottom opening. 3. The vacuum drying apparatus according to claim 1 , wherein the wind deflector is movable up and down. 4. The vacuum drying apparatus according to claim 3 , further comprising a wind deflector elevation driver connected with the wind deflector and configured to drive the wind deflector to move up and down. 5. The vacuum drying apparatus according to claim 4 , wherein the wind deflector elevation driver comprises an elevation mechanism configured to drive the wind deflector to move up and down and an elevation driving mechanism configured to drive the elevation mechanism to move up and down. 6. The vacuum drying apparatus according to claim 5 , wherein the elevation driving mechanism comprises a motor, a coupling, a lead screw, a nut and a guide shaft, and wherein the motor is connected to an end of the lead screw by the coupling, the nut being mounted around the lead screw and connected with the elevation mechanism, and wherein the elevation mechanism moves up and down in a direction of the guide shaft, the guide shaft being connected to the top of the chamber and perpendicular to the substrate table. 7. The vacuum drying apparatus according to claim 6 , wherein the elevation mechanism comprises an elevation plate and an elevation shaft, the elevation plate being connected with the nut and connected with the wind deflector by the elevation shaft passing through the top of the chamber, and wherein the elevation plate is provided with a guide hole thereon matched with the guide shaft, the elevation plate being placed idly around the guide shaft through the guide hole. 8. The vacuum drying apparatus according to claim 7 , wherein the elevation plate is connected with a guide sleeve in the guide hole, the guide sleeve being placed around the guide shaft. 9. The vacuum drying apparatus according to claim 5 , wherein the elevation driving mechanism comprises a cylinder and a guide shaft, the cylinder comprising a cylinder rod which has an end connected with the elevation mechanism, and wherein the elevation mechanism is movable up and down in a direction of the guide shaft, the guide shaft being connected to the top of the chamber and perpendicular to the substrate table. 10. The vacuum drying apparatus according to claim 9 , wherein the elevation mechanism comprises an elevation plate and an elevation shaft, the elevation plate being connected with the cylinder rod and connected with the wind detector by the elevation shaft passing through the top of the chamber, and wherein the elevation plate is provided with a guide hole thereon matched with the guide shaft, the elevation plate being placed idly around the guide shaft through the guide hole. 11. The vacuum drying apparatus according to claim 10 , wherein the elevation plate is connected with a guide sleeve in the guide hole, the guide sleeve being placed idly around the guide shaft. 12. The vacuum drying apparatus according to claim 7 , wherein the elevation mechanism further comprises a retractable bellows mounted around the elevation shaft and configured to seal a region connecting the elevation plate with the top of the chamber. 13. The vacuum drying apparatus according to claim 10 , wherein the elevation mechanism further comprises a retractable bellows mounted around the elevation shaft and configured to seal a region connecting the elevation plate with the top of the chamber. 14. The vacuum drying apparatus according to claim 4 , wherein the wind deflector elevation driver further comprises an elevation limit mechanism configured to limit an upper limit position and a lower limit position of the wind deflector. 15. The vacuum drying apparatus according to claim 14 , wherein the elevation limit mechanism comprises an upper limit position sensor, a lower limit position sensor and a sensor mount, the upper limit position sensor and the lower limit position sensor being fixed to the sensor mount, all of the upper limit position sensor, the lower limit position sensor and a motor being connected with a controller, and wherein the controller is configured to control the work state of the motor on the basis of the signals transmitted from the upper limit position sensor and/or the lower limit position sensor. 16. The vacuum drying apparatus according to claim 2 , wherein the side wall of the wind deflector is at an angle less than or equal to 90 degrees with respect to the surface of the substrate table. 17. The vacuum drying apparatus according to claim 1 , wherein the wind deflector has a square or circular cross section parallel to the bottom opening. 18. The vacuum drying apparatus according to claim 1 , wherein the material is substrate of an OLED display device which has been processed by an ink jet printing, and a layer of ink droplets is formed on the substrate by the ink jet printing. 19. The vacuum drying apparatus according to claim 1 , wherein an extraction port is arranged at the bottom of the chamber or a plurality of extraction ports are distributed uniformly or in a predetermined form on the positions corresponding to the wind deflector at the bottom of the chamber. 20. A vacuum drying method for drying material using the vacuum drying apparatus according to claim 1 , the method comprising: providing the material onto the substrate table; covering the material by the wind deflector, the bottom opening being in tight contact with the substrate table, and leaving a gap between the top opening of the wind deflector and the top of the chamber; and evacuating the chamber such that a gas flow in the wind deflector is directed from the surface of the substrate table through the top opening of the wind deflector to external of the wind deflector and then out of the chamber.