Control device of variable stiffness mechanism

What is claimed is: 1. A control device of a variable stiffness mechanism which includes a first member and a second member, which are relatively displaceable with each other, and a plurality of dielectric elastomers interposed in parallel between the first member and the second member such that an elastic force is generated according to the relative displacement of the first member and the second member, and which is configured to be capable of changing a stiffness of each of the dielectric elastomers by variably manipulating a voltage to be applied to each of the dielectric elastomers, the control device comprising: a first power source that variably outputs a voltage for controlling the stiffness of each of an “m” number (m: an integer of 1 or more) of dielectric elastomers among the plurality of dielectric elastomers to each of the “m” number of the dielectric elastomers; a second power source that outputs a voltage signal which has a predetermined cycle for estimating an electrostatic capacitance of an “n” number (n: an integer of 1 or more) of dielectric elastomers among the plurality of dielectric elastomers excluding the “m” number of the dielectric elastomers, and which is for supplying a current correlated to the electrostatic capacitance of the “n” number of the dielectric elastomers to each of the “n” number of the dielectric elastomers; and an electrostatic capacitance estimating unit which acquires a detection value of an energizing current flowing between the second power source and the “n” number of the dielectric elastomers in a state in which the voltage signal is being output from the second power source, and which estimates the electrostatic capacitance of the “n” number of the dielectric elastomers by using the detection value of the energizing current. 2. The control device of the variable stiffness mechanism according to claim 1 , further comprising: a displacement amount estimating unit which estimates an amount of the relative displacement between the first member and the second member from an estimated value of the electrostatic capacitance estimated by the electrostatic capacitance estimating unit. 3. The control device of the variable stiffness mechanism according to claim 1 , wherein a voltage signal output from the second power source is a voltage signal having a voltage value thereof changing in steps at a predetermined cycle, and the electrostatic capacitance estimating unit is configured to carry out: energizing current sampling processing for acquiring the detection values of the energizing current at a plurality of sampling times in a current attenuation length, in which the energizing current increases and then attenuates according to a stepped change in the voltage value of the voltage signal and electrostatic capacitance estimation processing of determining an estimated value of the electrostatic capacitance of the “n” number of the dielectric elastomers from a model expressing a correlation between a time-dependent change in the energizing current and the electrostatic capacitance of the “n” number of the dielectric elastomers in the current attenuation length, and the detection values of the energizing currents at the plurality of sampling times. 4. The control device of the variable stiffness mechanism according to claim 3 , wherein a quantity “n” of the “n” number of the dielectric elastomers is plural. 5. The control device of the variable stiffness mechanism according to claim 1 , wherein a current path between the first power source and the plurality of dielectric elastomers is configured such that a quantity “m” or a combination of the “m” number of the dielectric elastomers can be selectively changed. 6. The control device of the variable stiffness mechanism according to claim 1 , wherein a current path between the second power source and the plurality of dielectric elastomers is configured such that a quantity “n” or a combination of the “n” number of the dielectric elastomers can be selectively changed. 7. The control device of the variable stiffness mechanism according to claim 1 , wherein each of the dielectric elastomers of the variable stiffness mechanism is formed like a sheet, and configured such that an output voltage of the first power source or the second power source can be applied in a direction of a thickness thereof, and a peripheral edge portion and a central portion of each of the dielectric elastomers are fixed to the first member and the second member, respectively, which are relatively movable in the direction of the thickness of the dielectric elastomers, and each of the dielectric elastomers is tightly installed such that a tension is imparted thereto between the first member and the second member in a state in which no output voltage of the first power source or the second power source is being applied.