Variable stiffness bushing assembly

The invention claimed is: 1. A variable stiffness bushing assembly, comprising: an inner tubular member: an outer tubular member coaxially surrounding the inner tubular member to define a gap therebetween; an elastic member positioned in the gap and connecting the inner tubular member and the outer tubular member to each other; wherein the inner tubular member includes a tubular inner yoke having an annular large diameter portion extending radially outward, a pair of coils wound coaxially around respective parts of an outer periphery of the inner yoke located on either axial side of the annular large diameter portion so as to generate magnetic fields directed in mutually opposing directions, and a pair of tubular outer yokes disposed coaxially with respect to the inner yoke, each surrounding the corresponding coil and each connected to the inner yoke at one axial end thereof located on an axial end portion of a corresponding one of the coils remote from another of the coils, another axial end of each outer yoke axially opposing the annular large diameter portion via a space, wherein the elastic member defines a pair of first liquid chambers that are on opposite sides of an axial line of the inner tubular member, the first liquid chambers being communicated with each other via a first communication passage defined at the gap between the opposing axial end of one of the outer yokes and the annular large diameter portion and extending circumferentially, and a pair of second liquid chambers that are on opposite sides of the axial line of the inner tubular member, the second liquid chambers being communicated with each other via a second communication passage defined at the gap between the opposing axial end of another one of the outer yokes and the annular large diameter portion and extending circumferentially, the first liquid chambers, the second liquid chambers, the first communication passage, and the second communication passage being filled with a magnetic fluid having a viscosity that changes depending on an intensity of a magnetic field applied thereto, and wherein a first circumferential passage and a second circumferential passage are passed between the annular large diameter portion and the outer yokes, wherein the first circumferential passage and the second circumferential passage are spaced apart from each other in the axial direction via the annular large diameter portion, and wherein the first circumferential passage is disposed on a radially outer side of an end of one of the coils, and the second circumferential passage is disposed on a radially outer side of an end of another one of the coils. 2. The variable stiffness bushing assembly according to claim 1 , wherein the first liquid chambers are arranged in a first direction orthogonal to the axial line of the inner tubular member, and the second liquid chambers are arranged in a second direction orthogonal to the first direction and the axial line of the inner tubular member. 3. The variable stiffness bushing assembly according to claim 1 , further comprising an intermediate tubular member made of nonmagnetic material and surrounding gaps defined between the annular large diameter portion and the outer yokes from outside, the intermediate tubular member defining the first communication passage and the second communication passage in cooperation with the annular large diameter portion and the outer yokes. 4. The variable stiffness bushing assembly according to claim 3 , wherein the intermediate tubular member is provided with a pair of protruding portions protruding radially inward and extending circumferentially, and abutting against an outer periphery of the coils. 5. The variable stiffness bushing assembly according to claim 1 , wherein the variable stiffness bushing assembly is configured to be interposed between an inboard end of an arm member of a wheel suspension device and a vehicle body.