A controller of an inkjet printing apparatus is configured to raise a driving voltage to a target voltage, move the cap for an inkjet head from a covering position to a spaced position, and move a carriage, from which the cap is spaced, from a first position to a second position, simultaneously. The controller is further configured to cause the inkjet head to eject the ink toward an ink receiver in response to completion of boosting of the driving voltage and moving of the cap to the spaced position, and cause the conveyer to convey the sheet and cause the inkjet head to eject the ink in accordance with the recording command, in response to receipt of a recording command which instructs recording of an image on the sheet through a communication device, and completion of flushing.

A method of controlling a piezoelectric motor as a piezoelectric drive device having a vibrator including piezoelectric elements, a rotor as a driven unit that moves at a target speed by vibration of the vibrator, and drive signal generation units that generate drive signals and output the drive signals to the piezoelectric elements, includes intermittently outputting the drive signals to the piezoelectric elements by the drive signal generation units, wherein a time when output of the drive signals is stopped is shorter than a time from when output of the drive signal is stopped to stoppage of the vibration.

A method of controlling a piezoelectric motor as a piezoelectric drive device having a vibrator including piezoelectric elements, a rotor as a driven unit that moves at a target speed by vibration of the vibrator, and drive signal generation units that generate drive signals and output the drive signals to the piezoelectric elements, includes intermittently outputting the drive signals to the piezoelectric elements by the drive signal generation units, wherein a time when output of the drive signals is stopped is shorter than a time from when output of the drive signal is stopped to stoppage of the vibration.

A drive transmitter including includes a first unit having an armature, a second unit, an electromagnetic unit, a rotary body, a cover portion, and a wall. The second unit is configured to couple with the first unit. The rotary body is disposed adjacent to the electromagnetic unit and overlapping the first unit and the second unit in an axial direction of the rotary body. The cover portion is mounted on one of the first unit and the second unit and configured to cover an outer circumferential surface of another one of the first unit and the second unit. A leading end of the cover portion in the axial direction and the outer circumferential surface of said another one of the first unit and the second unit are spaced apart by a gap. The wall is disposed between the gap and the rotary body.

An opening and closing mechanism includes an opening and closing door that is rotatably supported to be movable between a closed position where an opening of an apparatus body is covered and an opened position where the opening is opened, a link member provided in the apparatus body and rotatably supported by a rotary shaft, a guide member having a first guide surface that moves while being in contact with the link member in a case where the opening and closing door moves to the closed position and a second guide surface that moves while being in contact with the link member in a case where the opening and closing door moves to the opened position, and a switching member that guides the link member from the first guide surface to the second guide surface, in which the switching member includes a root portion and an arm extending from the root portion to an opposite side to the apparatus body, and a first rotational moment toward the first guide surface using the root portion as an axis is applied to the arm.

An opening and closing mechanism includes an opening and closing door that is rotatably supported to be movable between a closed position where an opening of an apparatus body is covered and an opened position where the opening is opened, a link member provided in the apparatus body and rotatably supported by a rotary shaft, a guide member having a first guide surface that moves while being in contact with the link member in a case where the opening and closing door moves to the closed position and a second guide surface that moves while being in contact with the link member in a case where the opening and closing door moves to the opened position, and a switching member that guides the link member from the first guide surface to the second guide surface, in which the switching member includes a root portion and an arm extending from the root portion to an opposite side to the apparatus body, and a first rotational moment toward the first guide surface using the root portion as an axis is applied to the arm.

An image forming system, image forming apparatus and tray for the same are provided. The tray supports sheets and may include a coupling including first and second connectable members, a cam and clutch. The coupling allows the driving force to be transmitted when the second connectable member is in a connected position and block the driving force to be transmitted when the second connectable member is in a disconnected position. The cam is rotatable by the driving force to be in a transmitting or a blocking state. The clutch allows the cam to rotate when activated and prevents the cam from rotating when deactivated. A controller can activate the clutch to transmit or block the driving force to the load and deactivate the clutch when the cam is placed in the transmitting or blocking states.

An image forming system, image forming apparatus and tray for the same are provided. The tray supports sheets and may include a coupling including first and second connectable members, a cam and clutch. The coupling allows the driving force to be transmitted when the second connectable member is in a connected position and block the driving force to be transmitted when the second connectable member is in a disconnected position. The cam is rotatable by the driving force to be in a transmitting or a blocking state. The clutch allows the cam to rotate when activated and prevents the cam from rotating when deactivated. A controller can activate the clutch to transmit or block the driving force to the load and deactivate the clutch when the cam is placed in the transmitting or blocking states.

According to an embodiment, there is provided a printer including a plurality of printing modes. A first printing mode is a printing mode for discharging a label by a transfer device, the label being still attached to a backing sheet. A second printing mode is a printing mode for discharging the label by the transfer device while peeling off the label from the backing sheet. The printer controls power supply from a storage battery such that a printing device performs printing at a first printing speed when the printing mode is the first printing mode and such that the printing device performs the printing at a second printing speed when the printing mode is the second printing mode, the second printing speed being slower than the first printing speed.

A selectable drive printing device includes a drive selector system to select between driving a print drive system and driving a scan drive system based at least partially on a position of a selector swing arm of the drive selector system. The selectable drive printing device includes a shifter to selectively shift the drive selector system between a scanning system drive position of the selector swing arm and a printing system drive position of the selector swing arm.