Energy surgical instrument

What is claimed is: 1. An energy surgical instrument comprising: a first grasping piece; a second grasping piece that is configured to open and close relative to the first grasping piece, the first grasping piece and the second grasping piece being configured to grasp a blood vessel therebetween, at least one of the first grasping piece and the second grasping piece being configured to apply treatment energy to the blood vessel grasped therebetween to treat the blood vessel; a processor that is configured to set a wall thickness of the blood vessel and set whether the wall thickness of the blood vessel is greater than a predetermined thickness; and a grasping force adjuster that is configured to adjust a grasping force applied by the first grasping piece and the second grasping piece to grasp the blood vessel therebetween, wherein the instrument is configured to apply: a first grasping force when the wall thickness set by the processor is larger than the predetermined thickness, and a second grasping force, which is larger than the first grasping force, when the wall thickness set by the processor is equal to or smaller than the predetermined thickness. 2. The energy surgical instrument of claim 1 , further comprising a detector that is configured to detect information regarding the blood vessel, wherein the processor is configured to set the wall thickness based on the information detected by the detector. 3. The energy surgical instrument of claim 1 , further comprising an operating panel, wherein the processor is configured to set the wall thickness based on information regarding the blood vessel input through the operating panel. 4. The energy surgical instrument of claim 1 , further comprising a controller that is configured to: determine a magnitude of the grasping force to be applied by the first grasping piece and the second grasping piece based on the wall thickness set by the processor, and control actuation of the grasping force adjuster in accordance with the determined magnitude. 5. The energy surgical instrument of claim 1 , wherein: the grasping force adjuster is configured to move between a first position and a second position; and the instrument is configured to apply: the first grasping force when the grasping force adjuster is in the first position, and the second grasping force when the grasping force adjuster is in the second position. 6. The energy surgical instrument of claim 1 , further comprising a handle configured to open and close relative to a grip to respectively open and close the second grasping piece relative to the first grasping piece, wherein: the grasping force adjuster is an abutment positioned on the grip such that when the handle closes relative to the grip, the handle abuts on the abutment; and the abutment is configured to move in a longitudinal direction to adjust the grasping force. 7. The energy surgical instrument of claim 1 , wherein: the grasping force adjuster is a rod that abuts on a distal side of a ring member; and the rod is configured to move in a radial direction of the ring member to control movement of the ring member in a distal direction and adjust the grasping force. 8. The energy surgical instrument of claim 1 , wherein: the first grasping piece is a distal portion of a rod; the grasping force adjuster is a bar having a stopper positioned at a distal end thereof; the stopper abuts on an outer surface of the rod to support the rod in an opening direction of the second grasping piece; and the bar is configured to move relative to the rod to adjust the grasping force. 9. The energy surgical instrument of claim 1 , wherein the first grasping piece is the grasping force adjuster and is configured to be rotated about a longitudinal axis of the instrument to adjust the grasping force. 10. The energy surgical instrument according to claim 2 , wherein the detector comprises a pressure sensor provided on at least one of the first grasping piece and the second grasping piece. 11. The energy surgical instrument according to claim 10 , wherein the processor is configured to determine that the wall thickness of the blood vessel is: smaller than the predetermined thickness when a pressure detected by the pressure sensor is larger than or equal to a predetermined pressure, and larger than the predetermined thickness when the pressure detected by the pressure sensor is smaller than the predetermined pressure. 12. The energy surgical instrument according to claim 11 , wherein the pressure detected by the pressure sensor is larger than or equal to the predetermined pressure when the pressure sensor abuts an opposing surface of one of the first grasping piece and the second grasping piece. 13. The energy surgical instrument according to claim 2 , wherein the detector comprises: a first conductive member that is provided at a proximal portion of a first opposing surface of the first grasping piece; and a second conductive member that is provided at a proximal portion of a second opposing surface of the second grasping piece, and is positioned to oppose the first conductive member. 14. The energy surgical instrument according to claim 13 , wherein the processor is configured to determine that the wall thickness of the blood vessel is: larger than the predetermined thickness when no current flows through the first conductive member and the second conductive member, and equal to or smaller than the predetermined thickness when current flows through the first conductive member and the second conductive member. 15. The energy surgical instrument according to claim 2 , wherein the detector comprises an angle sensor configured to detect an angle between the first grasping piece and the second grasping piece. 16. The energy surgical instrument according to claim 2 , further comprising a light emitter provided on one of the first grasping piece and the second grasping piece, and configured to transmit light, wherein the detector comprises a light receiver that is provided on one of the first grasping piece and the second grasping piece, and is configured to detect an amount of light incident thereon. 17. A treatment method comprising: closing the second grasping piece of the energy surgical instrument according to claim 1 relative to the first grasping piece to grasp the blood vessel therebetween; and applying the treatment energy to the blood vessel grasped by the first grasping piece and the second grasping piece to seal the blood vessel, wherein the grasping force applied by the first grasping piece and the second grasping piece to grasp the blood vessel therebetween is adjusted to: the first grasping force when the wall thickness set by the processor is larger than the predetermined thickness, and the second grasping force when the wall thickness set by the processor is smaller than or equal to the predetermined thickness. 18. The energy surgical instrument of claim 1 , wherein the instrument is configured to apply: the first grasping force when the wall thickness set by the processor corresponds to a wall thickness of a blood vessel of a systemic circulatory system, which is larger than the predetermined thickness, and the second grasping force, which is larger than the first grasping force, when the wall thickness set by the processor corresponds to a wall thickness of a blood vessel of a pulmonary circulatory system, which is equal to or smaller than the predetermined thickness.