True triaxial tester with adjustable loading stiffness and test method

What is claimed is: 1 . A true triaxial tester with adjustable loading stiffness, comprising a first principal stress variable stiffness loading apparatus, a second principal stress variable stiffness loading apparatus, a third principal stress loading apparatus, a monitoring system, and a control system; wherein the first principal stress variable stiffness loading apparatus comprises an outer frame, an inner top beam, a first inner column, a first stiffness adjusting cylinder, a first loading cylinder, and a first pressure bearing column, the first stiffness adjusting cylinder is disposed at the top of the outer frame, the inner top beam is disposed below the first stiffness adjusting cylinder, a lower end of the first stiffness adjusting cylinder is provided with a short pressure bearing column, a lower end of the short pressure bearing column is in contact with the inner top beam, the first pressure bearing column is disposed below the inner top beam, the first loading cylinder is disposed at the bottom of the outer frame, and the first inner column is connected to the inner top beam and the bottom of the outer frame; the second principal stress variable stiffness loading apparatus comprises an inner side plate, an inner transverse column, a second stiffness adjusting cylinder, a second loading cylinder, and a second pressure bearing column, left and right sides of the second principal stress variable stiffness loading apparatus are arranged symmetrically, the second loading cylinder is connected to the inner side plate, the inner transverse column is connected between the inner side plates, and the inner side plate is further provided with the second pressure bearing column; the third principal stress loading apparatus comprises a third loading cylinder and a third pressure bearing column, the third loading cylinder is disposed on a rear side of the outer frame, and the third loading cylinder is connected to the third pressure bearing column; the monitoring system comprises a first stiffness sensor, a second stiffness sensor, a first pressure sensor, a second pressure sensor, a third pressure sensor, a first displacement sensor, and a second displacement sensor, the first stiffness sensor is disposed between the first stiffness adjusting cylinder and the inner top beam, the first pressure sensor is disposed between the inner top beam and the first pressure bearing column, and the first displacement sensor is disposed between the inner top beam and a fixed base; the second stiffness sensor is disposed between the second stiffness adjusting cylinder and the inner side plate, the second pressure sensor is disposed between the second loading cylinder and the second pressure bearing column, and the second displacement sensor is disposed between the inner side plates; the third pressure sensor is disposed between the third loading cylinder and the third pressure bearing column; and the monitoring system transmits monitoring information to a control system, and the first stiffness adjusting cylinder, the first loading cylinder, the second stiffness adjusting cylinder, the second loading cylinder, and the third loading cylinder are controlled by the control system. 2 . The true triaxial tester with adjustable loading stiffness according to claim 1 , wherein a lower end of the inner side plate is provided with a pulley, the fixed base is disposed at the bottom of the outer frame, and the fixed base is further provided with a pulley guide rail. 3 . The true triaxial tester with adjustable loading stiffness according to claim 1 , wherein stiffness of the inner top beam is greater than that of the first inner column, and stiffness of the inner side plate is greater than that of the inner transverse column. 4 . A stiffness adjusting method for a true triaxial tester with adjustable loading stiffness using the true triaxial tester with adjustable loading stiffness according to claim 1 , wherein loading stiffness adjustment comprises: stiffness adjustment in a first principal stress loading direction: the first loading cylinder loads a specimen, the inner top beam drives the first inner column to stretch, making the first inner column elastically deform, the first pressure sensor feeds monitoring data back to the control system, and the control system controls the first stiffness adjusting cylinder to load or unload and then adjusts the displacement of the inner top beam and the deformation of the first inner column; and stiffness adjustment in a second principal stress loading direction: the second loading cylinder loads a specimen, the inner side plate drives the inner transverse column to stretch, making the inner transverse column elastically deform, the second pressure sensor feeds monitoring data back to the control system, and the control system controls the second stiffness adjusting cylinder to load or unload and then adjusts the displacement of the inner side plate and the deformation of the inner transverse column. 5 . The stiffness adjusting method for a true triaxial tester with adjustable loading stiffness according to claim 4 , wherein in the process of the first loading cylinder loading the specimen, the control system controls the first stiffness adjusting cylinder to load or unload specifically as follows: keeping a ratio of a load value measured by the first pressure sensor to a displacement value measured by the first displacement sensor in the first principal stress direction to a set value, and when the ratio of the load value measured by the first pressure sensor to the displacement value in the first principal stress direction is greater than the set value, the first stiffness adjusting cylinder unloading; and when the ratio of the load value measured by the first pressure sensor to the displacement value in the first principal stress direction is less than the set value, the first stiffness adjusting cylinder loading; in the process of the second loading cylinder loading the specimen, the control system controls the second stiffness adjusting cylinder to load or unload specifically as follows: keeping a ratio of a load value measured by the second pressure sensor to a displacement value measured by the second displacement sensor in the second principal stress direction to a set value, and when the ratio of the load value measured by the second pressure sensor to the displacement value in the second principal stress direction is greater than the set value, the second stiffness adjusting cylinder unloading; and when the ratio of the load value measured by the second pressure sensor to the displacement value in the second principal stress direction is less than the set value, the second stiffness adjusting cylinder loading. 6 . A true triaxial test method with adjustable loading stiffness using the true triaxial tester with adjustable loading stiffness according to claim 1 , the method comprising: step 1: determining loading stiffness in a first principal stress direction and loading stiffness in a second principal stress direction, and calculating and determining a function relationship between a load value in the first principal stress direction and a displacement value in the first principal stress direction, and a function relationship between a load value in the second principal stress direction and a displacement value in the second principal stress direction; step 2: placing a rock specimen, and loading the rock specimen through the first loading cylinder, the second loading cylinder, and the third loading cylinder; and step 3: feeding, by the monitoring system, monitoring data back to the control system, controlling, by the control system, the first stiffness adjusting cylinder and the second stiffness adjusting cylinder to load or unload to satisfy the function relationship