Power tool

What is claimed is: 1. A power tool configured to perform a processing operation on a workpiece by driving a tool accessory, the power tool comprising: a housing; a spindle supported in the housing to be pivotable or rotatable around a driving axis that defines an up-down direction of the power tool, a tool mounting part to which the tool accessory is removably attachable being defined at a lower end portion of the spindle; a clamping shaft that is selectively movable in the up-down direction relative to the spindle, the clamping shaft including a shaft part extending coaxially with the spindle in the up-down direction and a clamping part connected to the shaft part below the tool mounting part; a biasing member; a release member that is selectively movable in the up-down direction relative to the spindle and is configured to selectively interrupt transmission of biasing force generated by the biasing member to the clamping shaft, the release member being configured to be locked to the spindle in a locked position while the transmission of biasing force from the biasing member to the clamping shaft is being interrupted; and an actuating member that is movable in the up-down direction relative to the spindle and is configured to move upward in response to being pressed upward by the clamping part or by the tool accessory and thereby unlock the release member from the spindle; wherein: the shaft part is a tubular member, and at least a portion of the actuating member is disposed within the shaft part. 2. The power tool as defined in claim 1 , wherein the clamping part is detachably attached to the shaft part. 3. The power tool as defined in claim 2 , wherein: the clamping part includes a case and a lock ring supported by the case to be rotatable or pivotable around the driving axis relative to the shaft part between a locking position and an unlocking position, when the lock ring is in the locking position, the lock ring is engageable with the shaft part in a non-detachable manner, and when the lock ring is in the unlocking position, the rotation part is detachable from the shaft part. 4. The power tool as defined in claim 3 , wherein the lock ring is configured to rotate relative to the shaft part in response to movement of the clamping shaft relative to the spindle in the up-down direction. 5. The power tool as defined in claim 3 , wherein the clamping part further includes an axially-extending projection that directly contacts and presses the actuating member while the clamping part is attached to the shaft part. 6. The power tool as defined in claim 1 , wherein the actuating member is selectively movable relative to the clamping shaft in the up-down direction. 7. The power tool as defined in claim 6 , wherein the actuating shaft is configured to move upward to a first position relative to the spindle and the clamping shaft and to further move upward from the first position together with the clamping shaft relative to the spindle in response to being pressed upward by the clamping part or by the tool accessory and thereby unlock the release member from the spindle via the clamping shaft. 8. The power tool as defined claim 1 , further comprising: a manually operable member configured to be externally manipulated by a user, wherein: the manually operable member is configured to cause the release member to move in response to an unclamping operation being performed on the manually operable member, and a force that is applied by the manually operable member during the unclamping operation directly acts on the biasing member via the release member. 9. The power tool as defined in claim 1 , wherein the actuating member is an actuating shaft that extends coaxially within the tubular shaft part of the clamping shaft. 10. The power tool as defined in claim 1 , wherein the clamping shaft is non-detachably coupled to the spindle. 11. A power tool comprising: a housing; a spindle supported in the housing to be pivotable or rotatable around a driving axis that defines an up-down direction of the power tool, a tool mounting part to which the tool accessory is removably attachable being defined at a lower end portion of the spindle; a clamping shaft that is selectively movable in the up-down direction relative to the spindle, the clamping shaft including a shaft part extending coaxially with the spindle in the up-down direction and a clamping head connected to the shaft part below the tool mounting part; a spring; a spring seat abutting on an upper end of the spring and operably connected to the clamping shaft, the spring seat being selectively movable in the up-down direction relative to the spindle and being configured to interrupt transmission of biasing force originating from the spring to the clamping shaft while moving downward from its uppermost position relative to the spindle; a force transmitting mechanism configured to amplify biasing force generated by the spring and to transmit the amplified biasing force to the clamping shaft; and an actuator that is movable in the up-down direction relative to the spindle; wherein: the spring seat is configured to be selectively lockable to the spindle at a locked position that is below its uppermost position in the up-down direction while transmission of the biasing force originating from the spring is being interrupted, and the actuator is configured to move upward from its lowermost position in response to being pressed upward to thereby unlock the spring seat from the spindle. 12. The power tool as defined in claim 11 , wherein the force transmitting mechanism comprises a toggle joint mechanism. 13. The power tool as defined in claim 11 , wherein: the spindle includes an elongate hollow cylindrical shape having at least one first holding hole extending through the spindle in a radial direction, at least one first ball is at least partially disposed in the at least one first holding hole so as to be movable in the radial direction of the spindle, and the spring seat includes a circular through hole that surrounds the spindle, the spring seat being configured to be locked to the spindle at the locked position via the at least one first ball. 14. The power tool as defined in claim 13 , wherein: the shaft part of the clamping shaft has an elongate hollow cylindrical shape and is at least partially disposed inside the spindle, a first annular groove is formed around an outer peripheral surface of the shaft part, the actuator is an elongate shaft that is at least partially disposed inside the shaft part, and the actuator is configured to move upward from its lowermost position together with the clamping shaft such that the first annular groove opposes the at least one first holding hole and enables the at least one first ball to partially move into the first annular groove to thereby unlock spring seat from the spindle. 15. The power tool as defined in claim 14 , wherein: at least one second holding hole extends through the shaft part in the radial direction, at least one second ball is partially disposed in the at least one second holding hole and is movable in the radial direction, a second annular groove is formed around an outer peripheral surface of the actuator, a third annular groove is formed around an inner peripheral surface of the spindle, when the second annular groove of the actuator, the at least one second holding hole of the shaft part and the third annular groove of the spindle are in the same position in the up-down direction, the at least one second ball is movable between a first radial position and a second radial