Soft-bodied actuator with pinched configuration

What is claimed is: 1. An actuator comprising: a central bladder, the central bladder including a flexible casing and defining a central fluid chamber, the central fluid chamber including a dielectric fluid; a first conductor operatively connected to a first portion of the central bladder; and a second conductor operatively connected to a second portion of the central bladder opposite the first portion, the first conductor and the second conductor being operatively connected to receive electrical energy from a power source, the actuator being configured such that the central bladder is in a pinched configuration in at least a region located between the first and second conductors when in a non-activated mode in which electrical energy is not supplied to the first and second conductors, and the actuator being configured such that the central bladder is in a non-pinched configuration in at least the region located between the first and second conductors when in an activated mode in which electrical energy is supplied to the first and second conductors. 2. An actuator comprising: a central bladder, the central bladder including a flexible casing and defining a central fluid chamber, the central fluid chamber including a dielectric fluid; a first conductor operatively connected to a first portion of the central bladder; a second conductor operatively connected to a second portion of the central bladder opposite the first portion, the first conductor and the second conductor being operatively connected to receive electrical energy from a power source; a first outer bladder, the first outer bladder including a flexible casing and defining a first outer fluid chamber, the first outer fluid chamber including a dielectric fluid; and a third conductor operatively connected to a first portion of the first outer bladder, the first conductor being operatively connected to a second portion of the first outer bladder, the second portion being opposite the first portion, and the actuator being configured such that the central bladder is in a pinched configuration in a non-activated mode in which electrical energy is not supplied to the first and second conductors, and the actuator being configured such that the central bladder is in a non-pinched configuration in an activated mode in which electrical energy is supplied to the first and second conductors. 3. The actuator of claim 2 , further including: a second outer bladder, wherein the second outer bladder includes a flexible casing and defines a second outer fluid chamber, wherein the second outer fluid chamber includes a dielectric fluid; and a fourth conductor operatively connected to a first portion of the second outer bladder, wherein the second conductor is operatively connected to a second portion of the second outer bladder, the second portion being opposite the first portion, the first outer bladder and the second outer bladder being located on opposite portions of the central bladder. 4. The actuator of claim 3 , wherein the flexible casing of the central bladder is made of a higher strength material than the flexible casing of the first outer bladder and the flexible casing of the second outer bladder. 5. The actuator of claim 3 , wherein the flexible casing of the central bladder, the flexible casing of the first outer bladder, and the flexible casing of the second outer bladder are made of an insulating elastomer. 6. An actuator comprising: a central bladder, the central bladder including a flexible casing and defining a central fluid chamber, the central fluid chamber including a dielectric fluid; a first conductor operatively connected to a first portion of the central bladder; and a second conductor operatively connected to a second portion of the central bladder opposite the first portion, the first conductor and the second conductor being operatively connected to receive electrical energy from a power source, the actuator being configured such that the central bladder is in a pinched configuration in a non-activated mode in which electrical energy is not supplied to the first and second conductors, and the actuator being configured such that the central bladder is in a non-pinched configuration in an activated mode in which electrical energy is supplied to the first and second conductors, and the central fluid chamber including a particulate material, whereby the particulate material facilitates the central bladder being in the pinched configuration in the non-activated mode. 7. The actuator of claim 6 , wherein the particulate material is at least partially embedded in the flexible casing of the central bladder. 8. A system comprising: an actuator including: a central bladder, the central bladder including a flexible casing and defining a central fluid chamber, the central fluid chamber including a dielectric fluid; and a first conductor and a second conductor operatively positioned on opposite portions of central bladder; a power source operatively connected to supply electrical energy to the first conductor and the second conductor; and one or more processors operatively connected to selectively control a supply of electrical energy from the power source to the actuator, the actuator being configured such that the central bladder is in a pinched configuration in at least a region located between the first and second conductors when in a non-activated mode in which electrical energy from the power source is not supplied to the first and second conductors, and the actuator being configured such that the central bladder is in a non-pinched configuration in at least the region located between the first and second conductors when in an activated mode in which electrical energy is supplied to the first and second conductors. 9. The system of claim 8 , further including an input interface, whereby the supply of electrical energy from the power source to the actuator is controllable by inputs received via the input interface. 10. A system comprising: an actuator including: a central bladder, the central bladder including a flexible casing and defining a central fluid chamber, the central fluid chamber including a dielectric fluid; and a first conductor and a second conductor operatively positioned on opposite portions of central bladder; a power source operatively connected to supply electrical energy to the first conductor and the second conductor; and one or more processors operatively connected to selectively control a supply of electrical energy from the power source to the actuator, the actuator being configured such that the central bladder is in a pinched configuration in a non-activated mode in which electrical energy from the power source is not supplied to the first and second conductors, and the actuator being configured such that the central bladder is in a non-pinched configuration in an activated mode in which electrical energy is supplied to the first and second conductors the power source supplying electrical energy to the first and second conductors such that the first and second conductors have like charges, whereby the first and second conductors repel each other in the activated mode. 11. A system comprising: an actuator including: a central bladder, the central bladder including a flexible casing and defining a central fluid chamber, the central fluid chamber including a dielectric fluid; and a first conductor and a second conductor operatively positioned on opposite portions of central bladder; a power source operatively connected to supply electrical energy to the first conductor and the second conductor; one or more processors operatively connected to selectively control a supply o