Soft tissue simulator for magnetic resonance testing and method for simulated testing

What is claimed is: 1. A soft tissue simulator for magnetic resonance testing, comprising: a base for supporting a soft tissue or organ sample; an indenter facing the sample; a pneumatic cylinder for driving the indenter to move reciprocally relative to the sample, the pneumatic cylinder being separated into a first chamber and a second chamber by a piston which is connected with the indenter; and an air source for supplying air to the pneumatic cylinder, the air source comprising a pneumatic generation source and a reversing valve connected to the pneumatic generation source and having a first air outlet and a second air outlet, the first air outlet and the second air outlet of the reversing valve being in fluid communication with the first chamber and the second chamber of the pneumatic cylinder respectively. 2. The soft tissue simulator for magnetic resonance testing as claimed in claim 1 , wherein an adjustment device is disposed on the base for adjusting a distance between the pneumatic cylinder and the sample, the adjustment device comprising two screw rods each having one end rotatably connected to the base, a sliding platform with two ends being threadedly connected to the two screw rods respectively, a top plate rotatably connected to the other end of each of the two screw rods, and a handwheel disposed on the top plate for driving the two screw rods to rotate, and the pneumatic cylinder being disposed on the sliding platform. 3. The soft tissue simulator for magnetic resonance testing as claimed in claim 1 , wherein a one-way throttle valve is connected between the pneumatic generation source and the reversing valve. 4. The soft tissue simulator for magnetic resonance testing as claimed in claim 3 , wherein the reversing valve is a two-position five-way solenoid reversing valve. 5. The soft tissue simulator for magnetic resonance testing as claimed in claim 3 , wherein the pneumatic generation source is an air compressor that produces compressed air. 6. A method for simulated testing using the soft tissue simulator for magnetic resonance testing as claimed in claim 1 , comprising steps of: (1) placing a soft tissue or organ sample having a suitable size on the base, and making the sample contact the indenter; (2) activating the pneumatic generation source and controlling the direction of the reversing valve, such that the first air outlet is in fluid communication with the first chamber or the second air outlet is in fluid communication with the second chamber, and the indenter retract or press the sample, and then adjusting the direction of the reversing valve, to enable the indenter to produce a periodic movement or a unidirectional movement; and (3) adjusting and controlling the pneumatic generation source based on physical and mechanical characteristics of soft tissue in magnetic resonance, to simulate the movement of a human organ or the movement of soft tissue in human testing. 7. A method for simulated testing using the soft tissue simulator for magnetic resonance testing as claimed in claim 2 , comprising steps of: (1) placing a soft tissue or organ sample on the base, and rotating the handwheel to adjust a height of the sliding platform on the screw rods according to the size of the sample, such that the indenter contacts the sample; (2) activating the pneumatic generation source and controlling the direction of the reversing valve, such that the first air outlet is in fluid communication with the first chamber or the second air outlet is in fluid communication with the second chamber, and the indenter retract or press the sample, and then adjusting the direction of the reversing valve, to enable the indenter to produce a periodic movement or a unidirectional movement; and (3) adjusting and controlling the pneumatic generation source based on physical and mechanical characteristics of soft tissue in magnetic resonance, to simulate the movement of a human organ or the movement of soft tissue in human testing. 8. A method for simulated testing using the soft tissue simulator for magnetic resonance testing as claimed in claim 3 , comprising steps of: (1) placing a soft tissue or organ sample having a suitable size on the base and making the sample contact the indenter, or, placing a soft tissue or organ sample on the base, and rotating the handwheel to adjust a height of the sliding platform on the screw rods according to the size of the sample, such that the indenter contacts the sample; (2) activating the pneumatic generation source, opening the one-way throttle valve and controlling the direction of the reversing valve, such that the first air outlet is in fluid communication with the first chamber or the second air outlet is in fluid communication with the second chamber, and the indenter retract or press the sample, and then adjusting the direction of the reversing valve, to enable the indenter to produce a periodic movement or a unidirectional movement; and (3) adjusting and controlling the pneumatic generation source based on physical and mechanical characteristics of soft tissue in magnetic resonance, to simulate the movement of a human organ or the movement of soft tissue in human testing.