Holding mechanism for operation device and X-ray imaging unit

The invention claimed is: 1. A holding mechanism included in a main unit for holding an operation device in a removable manner, the operation device being used to operate the main unit wirelessly, the holding mechanism comprising: a lock mechanism configured to: switch between a lock mode in which the operation device is unremovable and an unlock mode in which the operation device is removable, such that the lock mechanism is switched to the lock mode in response to the main unit not being in operation, and to the unlock mode in response to the main unit being in operation; and a contact member configured to come in contact with at least a part of an outer surface of the operation device to hold the operation device, wherein: the lock mechanism comprises a movable member comprising a hook configured to protrude through a hole in the contact member, a drive configured to drive the movable member, and an elastic member configured to urge the movable member in a direction in which the hook protrudes through the hole in the contact member; in response to the main unit not being in operation, the drive does not drive the movable member, thus causing the operation device to enter the lock mode by: the movable member to moving in the direction urged by the elastic member; the hook to protruding through the hole; and the hook to engaging with the operation device; in response to the main unit being in operation, the drive drives the movable member, thus causing the operation device to enter the unlock mode by: the movable member moving in a direction opposite to the direction urged by the elastic member; and the hook being disengaged from the operation device; and the lock mechanism is further configured to set the operation device unremovable in response to the holding mechanism receiving the operation device after the holding mechanism, without holding the operation device, enters the lock mode. 2. The holding mechanism according to claim 1 , wherein the lock mechanism is powered off to enter the lock mode in response to the main unit being not in operation, and is powered on to enter the unlock mode in response to the main unit being in operation. 3. A holding mechanism included in a main unit for holding an operation device in a removable manner, the operation device being used to operate the main unit wirelessly, the holding mechanism comprising: a lock mechanism configured to: switch between a lock mode in which the operation device is unremovable and an unlock mode in which the operation device is removable, such that the lock mechanism is switched to the lock mode in response to the main unit not being in operation, and to the unlock mode in response to the main unit being in operation, wherein: the lock mechanism comprises a solenoid configured to drive the movable member, and an elastic member; in response to the main unit not being in operation, the solenoid is powered off so as to not drive the movable member, thus causing the operation device to enter the lock mode by: the movable member moving in a direction urged by the elastic member; and the hook engaging with the operation device; in response to the main unit being in operation, the solenoid is powered on so as to drive the movable member, thus causing the operation device to enter the unlock mode by: the movable member moving in a direction opposite to the direction urged by the elastic member; and the hook being disengaged from the operation device; and the lock mechanism is further configured to set the operation device unremovable in response to the holding mechanism receiving the operation device after the holding mechanism, without holding the operation device, enters the lock mode. 4. The holding mechanism according to claim 1 , wherein: the operation device comprises a peripheral surface with an engagement hole that allows engagement with the hook; and in response to the holding mechanism in the lock mode receiving the operation device, the hook comes in contact with and presses against the operation device, and the hook is released in response to the hook facing and engaging with the engagement hole. 5. An X-ray imaging unit, comprising: the holding mechanism according to claim 1 ; and an X-ray imaging device configured to detect X-rays and generate an X-ray image, the X-ray imaging device being the main unit. 6. An X-ray imaging unit, comprising: the holding mechanism according to claim 3 ; and an X-ray imaging device configured to detect X-rays and generate an X-ray image, the X-ray imaging device being the main unit.