A flip-cover multifunctional image forming device includes a lower body, a first image forming module, a cover body, at least one pivoting mechanism, an upper body and a second image forming module. The first image forming module is disposed inside the lower body. The at least one pivoting mechanism is connected to the lower body and the cover body and for pivoting the cover body relative to the lower body between a folded position and an unfolded position. The upper body is detachably disposed on a side of the cover body away from the lower body. The upper body is driven by the cover body to move relative to the lower body when the cover body pivots relative to the lower body. The second image forming module is disposed inside the upper body. The present invention has advantages of simple structure, easy operation and flexibility in use.

In a case where an image forming apparatus has entered into a sleep mode, a user is required to wait, after issuing an instruction for image formation via a wireless operation unit, until the image forming apparatus returns from the sleep mode to a standby mode, for the requested processing to be performed. Accordingly, an image forming system is provided that includes an image forming apparatus capable of transitioning between a standby mode and a sleep mode includes a wireless operation unit capable of performing wireless communication with the image forming apparatus, and that includes a counter for counting a time for determining timing of transition from the standby mode to the sleep mode, and a resetter capable of resetting a count value of the counter in response to a predetermined icon being selected in the wireless operation unit in the standby mode.

An image forming apparatus includes a connection portion to which a first optional device and a second optional device are selectively detachably connectable, and a determination portion configured to determine whether to prohibit an operation of the image forming apparatus. A plurality of first optional devices are stacked and connectable to the image forming apparatus. The second optional device is installed on a floor and is connectable to the first optional device. In a case in which the second optional device is not connected and the first optional devices of a number larger than a first threshold value are connected to the image forming apparatus, and in a case in which the second optional device is connected and the first optional devices of a number larger than a second threshold value are connected to the image forming apparatus, the determination portion prohibits the operation of the image forming apparatus.

The disclosure describes methods and systems for power saving during an upgrade at a device such as a multi-function device. The device includes one or more modules, wherein each module is having an independent power supply. An application runs on the device to identify whether an upgrade is available at the multi-function device. Then, the application identifies one or more modules requiring the upgrade. Once the modules are identified, upgrade for the one or more identified modules is initiated by continuing to provide power to the identified modules. And power to the remaining modules i.e., modules not requiring any upgrade, is disabled from the start of the upgrade process till completion of the upgrade process in order to save overall power consumption of the device.

A wireless communication device includes: a main substrate including: a first connector having a detection terminal, an earth terminal and an output terminal; a current circuit configured to cause current to flow toward the detection terminal; a ground wired to the earth terminal; a power supply circuit configured to supply a voltage toward the output terminal; and a controller configured to stop supply of the voltage to the output terminal by the power supply circuit; and a wireless communication substrate including a second connector having a first terminal, a second terminal, and an input terminal, the first terminal and the second terminal being electrically connected, in which the controller is configured to detect that the current no longer flows via the detection terminal, the first terminal, the second terminal and the earth terminal.

In a case where an image forming apparatus has entered into a sleep mode, a user is required to wait, after issuing an instruction for image formation via a wireless operation unit, until the image forming apparatus returns from the sleep mode to a standby mode, for the requested processing to be performed. Accordingly, an image forming system is provided that includes an image forming apparatus capable of transitioning between a standby mode and a sleep mode includes a wireless operation unit capable of performing wireless communication with the image forming apparatus, and that includes a counter for counting a time for determining timing of transition from the standby mode to the sleep mode, and a resetter capable of resetting a count value of the counter in response to a predetermined icon being selected in the wireless operation unit in the standby mode.

Example implementations relate to automatically identifying sub-assemblies in a printer system. One example implementation signals a unique connector identifier to a sub-assembly coupled to the printer system. The unique connector identifier is associated with a location within the printer system. The signalled unique connector identifier and a functional identifier associated with the sub-assembly are transmitted from the sub-assembly in order to associate the sub-assembly with the location within the printer system.

A printing subassembly is disclosed. A printing subassembly includes a frame, a printbar coupled to the frame, and a lift mechanism coupled to the printbar. The lift mechanism selectively moves the printbar with respect to the frame. A fluid receiving system is coupled to the printbar.

An image forming system includes a shelf portion, a post, and an image forming apparatus. An article is placeable on the shelf portion. The post is configured to support the shelf portion. The image forming apparatus is configured to form an image and includes a support portion on an upper surface of the image forming apparatus. The support portion is configured to support the post.

An image capturing apparatus includes a first image capturing module, a first control module, a second image capturing module and a second control module. When the first control module is electrically connected to an external apparatus or the second control module, the first control module is for transmitting a first image captured by the first image capturing module to the external apparatus or the second control module. When the second control module is electrically connected to the first control module and the external apparatus, the second control module is for transmitting the first image transmitted from the first control module or a second image captured by the second image capturing module to the external apparatus. Therefore, the present application can provide flexibility in use.