Glasses and method for controlling the same

What is claimed is: 1. A pair of glasses, comprising a first lens, a second lens, a first temple arm that is disposed close to the first lens, and a second temple arm that is disposed close to the second lens; wherein, the glasses further comprise a position adjusting portion that is mounted on the first lens and the second lens; the position adjusting portion is configured to adjust an overlapping area of the first lens and the second lens; the glasses further comprise a first display screen; the first temple arm and the second temple arm are bendable in extension directions thereof, so that a tail end of the first temple arm overlaps a tail end of the second temple arm; the glasses further comprise a controller unit and at least one distance sensor; the controller unit is disposed on the first temple arm; the distance sensor is disposed on a tail end of the first temple arm and/or a tail end of the second temple arm; the distance sensor is configured to measure a distance from the first temple arm to the second temple arm, and transmit the measured distance to the controller unit; the controller unit is further connected to the first display screen, and the controller unit is configured to control the first display screen to be turned on when the measured distance is less than or equal to a preset distance; the glasses further comprise a second display screen; the second display screen is connected to the controller unit, and the controller unit is configured to control the second display screen to be turned on when the measured distance is less than or equal to the preset distance; and the pair of glasses is a pair of sunglasses. 2. The glasses according to claim 1 , wherein the position adjusting portion comprises a fixed structure and a sliding structure; the fixed structure is mounted on the first lens; the sliding structure is mounted on the second lens; at least a part of the fixed structure is located in the sliding structure, and the fixed structure is configured to slide along the sliding structure, so that the first lens at least partially overlaps the second lens. 3. The glasses according to claim 2 , wherein the glasses further comprise a frame; the first lens and the second lens are disposed in the frame; the first temple arm and the second temple arm are both mounted on the frame; the frame comprises the position adjusting portion. 4. The glasses according to claim 3 , wherein the first display screen is disposed on the first temple arm. 5. The glasses according to claim 1 , wherein the fixed structure is a fixed bar, and the fixed bar is mounted on an upper edge and/or a lower edge of the first lens; the sliding structure is a sliding rail, and the sliding rail is mounted on an outer side or an inner side of an upper edge and/or a lower edge of the second lens along an extension direction of the fixed bar; one end of the fixed bar that is close to the second lens is located in the sliding rail, and the fixed bar is configured to slide along the sliding rail, so that the first lens and the second lens overlap. 6. The glasses according to claim 5 , wherein a locking structure is disposed between the fixed bar and the sliding rail; the locking structure is configured to define relative positions of the fixed bar and the sliding rail. 7. The glasses according to claim 1 , wherein the second display screen is disposed on the second temple arm. 8. The glasses according to claim 7 , wherein the first display screen is located in the middle of the first temple arm; the second display screen is located in the middle of the second temple arm. 9. The glasses according to claim 1 , wherein the first temple arm and the second temple arm are both made by flexible materials. 10. The glasses according to claim 1 , wherein the first display screen and the second display screen are both flexible display screens. 11. The glasses according to claim 1 , wherein the first display screen that is in an on state is used to display current time, and/or, display current weather information. 12. The glasses according to claim 1 , wherein, the second display screen that is in an on state is used to display current time, and/or, display current weather information. 13. A method for controlling the glasses according to claim 1 , wherein the method comprises: measuring, by the distance sensor, a distance from the first temple arm to the second temple arm, and transmitting the measured distance to the controller unit; controlling, by the controller unit, the first display screen to be turned on when the measured distance is less than or equal to a preset distance; controlling, by the controller unit, the second display screen to be turned on when the measured distance is less than or equal to the preset distance. 14. The method for controlling the glasses according to claim 13 , wherein after the first display screen is turned on, the method further comprises: the first display screen displaying current time, and/or, displaying current weather information. 15. The method for controlling the glasses according to claim 13 , wherein after the second display screen is turned on, the method further comprises: the second display screen displaying current time, and/or, displaying current weather information.