Flat gripper actuator

What is claimed is: 1. A device comprising: a housing defining a cavity; a force sensor; a first hydraulic actuator positioned in the cavity, wherein the first hydraulic actuator moves between a first relaxing mode and a first thrusting mode along a longitudinal axis of the first hydraulic actuator based at least in part in response to sensor data from the force sensor; a second hydraulic actuator positioned in the cavity, wherein the second hydraulic actuator moves between a second relaxing mode and a second thrusting mode along a longitudinal axis of the second hydraulic actuator based at least in part in response to sensor data from the force sensor, and wherein the longitudinal axis of the first hydraulic actuator is substantially parallel to the longitudinal axis of the second hydraulic actuator; a first actuated member coupled to the first hydraulic actuator, wherein the first actuated member is in a first open mode when the first hydraulic actuator is in the first relaxing mode, and wherein the first actuated member is in a first closed mode when the first hydraulic actuator is in the first thrusting mode; a second actuated member coupled to the second hydraulic actuator, wherein the second actuated member is in a second open mode when the second hydraulic actuator is in the second relaxing mode, and wherein the second actuated member is in a second closed mode when the second hydraulic actuator is in the second thrusting mode; a first hydraulic channel in fluid communication with the first hydraulic actuator; a second hydraulic channel in fluid communication with the second hydraulic actuator; and a removable sealing component movable between a sealed position and an open position, wherein the first hydraulic channel is in fluid communication with the second hydraulic channel when the removable sealing component is in the open position such that a pressure applied to the first hydraulic actuator is equal to a pressure applied to the second hydraulic actuator, and wherein the first hydraulic channel is sealed off from the second hydraulic channel when the removable sealing component is in the sealed position such that the first actuated member and the second actuated member are individually controllable. 2. The device of claim 1 , wherein the first hydraulic actuator includes a first roller surface that contacts a first cam surface of the first actuated member to couple the first actuated member to the first hydraulic actuator, and wherein the second hydraulic actuator includes a second roller surface that contacts a second cam surface of the second actuated member to couple the second actuated member to the second hydraulic actuator. 3. The device of claim 2 , wherein the first cam surface and the second cam surface include involute cam surfaces. 4. The device of claim 1 , further comprising: a first biasing member that biases the first hydraulic actuator to the first relaxing mode; and a second biasing member that biases the second hydraulic actuator to the second relaxing mode. 5. The device of claim 1 , further comprising: a first encoder coupled to the first actuated member to provide data indicative of motion of the first actuated member, wherein a controller causes the first actuated member to rotate based on the controller causing the first hydraulic actuator to move between the first relaxing mode and the first thrusting mode; and a second encoder coupled to the second actuated member to provide data indicative of motion of the second actuated member, wherein the controller causes the second actuated member to rotate based on the controller causing the second hydraulic actuator to move between the second relaxing mode and the second thrusting mode. 6. The device of claim 1 , further comprising: a third hydraulic actuator positioned in the cavity, wherein the third hydraulic actuator moves between a third relaxing mode and a third thrusting mode along a longitudinal axis of the third hydraulic actuator, and wherein the longitudinal axis of the first hydraulic actuator and the longitudinal axis of the second hydraulic actuator are substantially parallel to the longitudinal axis of the third hydraulic actuator; and a third actuated member coupled to the third hydraulic actuator, wherein the third actuated member is in a third open mode when the third hydraulic actuator is in the third relaxing mode, and wherein the third actuated member is in a third closed mode when the third hydraulic actuator is in the third thrusting mode. 7. The device of claim 6 , wherein the second hydraulic actuator is positioned between the first hydraulic actuator and the third hydraulic actuator in the cavity. 8. The device of claim 6 , further comprising: a third hydraulic channel in fluid communication with the third hydraulic actuator. 9. The device of claim 8 , wherein the first hydraulic channel is in fluid communication with the second hydraulic channel and the third hydraulic channel when the removable sealing component is in the open position such that a torque applied to the second actuated member is approximately double a torque applied to the first actuated member and approximately double a torque applied to the third actuated member, and wherein the first hydraulic channel is sealed off from the second hydraulic channel and the third hydraulic channel when the removable sealing component is in the sealed position such that each of the first actuated member, the second actuated member, and the third actuated member are individually controllable. 10. The device of claim 1 , wherein the removable sealing component comprises a pin. 11. The device of claim 1 , wherein each of the first actuated member and the second actuated member comprises a gripper. 12. A robotic device, comprising: a first limb; a second limb coupled to the first limb; a gripping component coupled to the second limb, wherein the gripping component comprises (i) a housing defining a cavity, (ii) a force sensor, (iii) a first hydraulic actuator positioned in the cavity, wherein the first hydraulic actuator moves between a first relaxing mode and a first thrusting mode along a longitudinal axis of the first hydraulic actuator, (iv) a second hydraulic actuator positioned in the cavity, wherein the second hydraulic actuator moves between a second relaxing mode and a second thrusting mode along a longitudinal axis of the second hydraulic actuator, and wherein the longitudinal axis of the first hydraulic actuator is substantially parallel to the longitudinal axis of the second hydraulic actuator, (v) a first gripping member coupled to the first hydraulic actuator, (vi) a second gripping member coupled to the second hydraulic actuator, (vii) a first hydraulic channel in fluid communication with the first hydraulic actuator, (viii) a second hydraulic channel in fluid communication with the second hydraulic actuator, and (ix) a removable sealing component movable between a sealed position and an open position, wherein the first hydraulic channel is in fluid communication with the second hydraulic channel when the removable sealing component is in the open position such that a pressure applied to the first hydraulic actuator is equal to a pressure applied to the second hydraulic actuator, and wherein the first hydraulic channel is sealed off from the second hydraulic channel when the removable sealing component is in the sealed position such that the first actuated member and the second actuated member are individually controllable; and a controller comprising at least one processor and data storage comprising instructions executable by the at least one processor to cause the controller to perform operations