Suspension insulator

What is claimed is: 1 . A suspension insulator comprising: a bracket section configured to be coupled to a vehicle body; an inner core positioned inside the bracket section; a bushing module positioned inside the bracket section and surrounding the inner core, the bushing module having a passage part that contains a fluid; an outer pipe positioned inside the bracket section and surrounding the bushing module; and an upper section coupled to the bracket section and configured to cover the bushing module. 2 . The suspension insulator according to claim 1 , wherein: the bushing module comprises a bushing that surrounds the inner core and includes a fluid storage part defining a fluid storage portion in which the fluid is stored, the bushing being made of an elastic material that enables elastic deformation of the bushing and the fluid storage part during movement of the inner core, the passage part is arranged with respect to the bushing such that the passage is fluidly coupled to the fluid storage portion, and the elastic deformation of the fluid storage part causes at least a portion of the fluid in the fluid storage portion to flow into the passage. 3 . The suspension insulator according to claim 2 , wherein the bushing module further comprises a stiffness reinforcement part configured to reinforce a stiffness of the bushing. 4 . The suspension insulator according to claim 2 , wherein the bushing module comprises an elastic deformation induction part configured to induce the elastic deformation of the bushing. 5 . The suspension insulator according to claim 2 , wherein the fluid storage part comprises: a first fluid storage portion configured to store the fluid therein and connected to one end of the passage; and a second fluid storage portion configured to store the fluid therein and connected to the other end of the passage, the second fluid storage portion being spaced apart from the first fluid storage portion. 6 . The suspension insulator according to claim 5 , wherein: one of the first and the second fluid storage portions is reduced in volume when the bushing is elastically deformed which supplies at least a portion of the fluid therein to the other of the first and the second fluid storage portions via the passage; and the other of the first and second fluid storage portions expands in volume in response to receiving the fluid via the passage. 7 . The suspension insulator according to claim 5 , wherein the passage comprises: a first fluid hole fluidly connected to the first fluid storage portion; a second fluid hole fluidly connected to the second fluid storage portion; and a passage groove that fluidly interconnects the first fluid hole and the second fluid hole. 8 . The suspension insulator according to claim 7 , wherein the passage groove has a spiral shape.