Patent ID: 8042661

Claim:
A shock absorber for suppressing vibration in a vehicle, comprising: a cylinder in which a working fluid is sealed; a valve disk that delimits an interior of the cylinder, the valve disk forming a first passage, a second passage and a third passage disposed in series so as to connect pressure chambers delimited by the valve disk, the valve disk being a piston which is connected to one end of a rod that inserts and withdraws from the interior of the cylinder, and moves slidingly through the interior of the cylinder, the piston including a ring body latched to the rod and an outer periphery of the ring body being provided in sliding contact with the interior of the cylinder, and a piston main body, the first passage being formed to penetrate the piston main body, and the third passage being formed to penetrate the ring body; a valve body that is disposed between the first passage and the second passage, the valve body selectively opening the first passage and the second passage, the valve body closing the first passage by coming into contact with a seat surface of the piston main body, and closing the second passage by coming into contact with a seat surface of the ring body; a biasing member that biases the valve body against a pressure in a first of the pressure chambers and in a direction for closing the first passage, the piston main body compressing the biasing member between the ring body and the piston main body; and a bypass passage that connects the first passage to the third passage when the valve body is displaced from the pressure in the first pressure chamber so as to open the first passage and close the second passage, the bypass passage being formed to penetrate the valve body and remains closed when the valve body comes into contact with the seat surface of the piston main body, further in a first instance the valve body bends from the pressure in the first pressure chamber and opens the first passage, the first passage connects to the third passage through both the second passage and the bypass passage, and in a second instance the valve body moves from the pressure in the first pressure chamber and against the biasing force of the biasing member so as to close the second passage, the first passage connects to the third passage through only the bypass passage.