摘要:
An electronic device includes a movable unit having a top surface; a main body in which the movable unit is stowed and from which the movable unit is deployed by sliding the movable unit, the main body having a first surface opposed to the top surface when the movable unit is in a stowed state and in a deployed state; and a changing mechanism which changes a distance between the top surface and the first surface during a sliding operation of the movable unit so that the top surface and the first surface during the sliding operation are separated from each other by a distance greater than a distance between the top surface and the first surface in the stowed state and the deployed state of the movable unit.
摘要:
An electronic device includes a movable unit having a top surface; a main body in which the movable unit is stowed and from which the movable unit is deployed by sliding the movable unit, the main body having a first surface opposed to the top surface when the movable unit is in a stowed state and in a deployed state; and a changing mechanism which changes a distance between the top surface and the first surface during a sliding operation of the movable unit so that the top surface and the first surface during the sliding operation are separated from each other by a distance greater than a distance between the top surface and the first surface in the stowed state and the deployed state of the movable unit.
摘要:
An electronic device includes a front panel made of resin. The front panel is disposed on the front side of an organic electroluminescent display panel and functions as the front surface of the electronic device; and an adhesive agent layer formed between the organic electroluminescent display panel and the front panel. The organic electroluminescent display panel is fixed to the front panel via the adhesive agent layer. This structure is able to reduce a load applied to the organic electroluminescent display panel and ensure shock resistance for the organic electroluminescent display panel.
摘要:
An MRI apparatus having a configuration that reduces vibration of a static magnetic field generating source is provided. A closed vessel 2 of the static magnetic field generating source is provided with a rigid structure 4 for preventing transmission of vibration generated from a gradient magnetic field generating part 21 to other members via the closed vessel 2. The rigid structure 4 uses, for example, a connecting part 4 that connects a face 25 on the imaging space side and a face 26 confronting it. The rigidity of the closed vessel is thereby increased, and therefore vibration transmitted from the gradient magnetic field generating part can be reduced. The connecting part can have a through-hole structure, and in such a case, internal space of through-hole can be used for drawing cables.
摘要:
The present invention is characterized in that in a metal-core multilayer printed wiring board (1) which is obtained by forming one or more of at least inner layers of a laminate having a insulating layer and a conductor layer stacked alternately from a metal plate and has the metal plate as a core, the metal plate (13) is disposed below a site on which a heating element (10) is to be mounted, a surface layer over which the heating element (10) is to be mounted is connected to the metal plate (13) of the inner layer via a BVH (12) and a heat radiation layer (14) is formed over the surface layer. The present invention makes it possible to efficiently radiate heat, which has been released from the heating element, to the outside of the printed wiring board without impairing the packaging density of circuits and at the same time, to mount another element on the side opposite to the side on which the heating element exists.
摘要:
An endoscope-like image taking method of the present invention includes a preparation step of providing at least one peculiar index, which can be discriminated from other portions on an MR image, at the tip of a catheter, a first step (S1) of previously inserting a metal guide wire for guiding the catheter into a body cavity of a patient into which the catheter is inserted, a second step (S2) of inserting the catheter into the body cavity along the guide wire, a third step (S3) of executing an MR imaging sequence of a plurality of sliced images intersecting the guide wire, a fourth step (S4) of reconstructing three-dimensional image data based upon the nuclear magnetic resonance signals, which are generated from the patient when the sequence is executed and are received by the guide wire, and determining the tip position and the inserting direction of the catheter by detecting the peculiar index provided at the tip of the catheter based upon the three-dimensional image data, and a fifth step (S5) of reconstructing the center projected image using the three-dimensional image data and setting the tip position and the inserting direction of the catheter as a view point and a line-of-sight direction and displaying the center projected image on a display means, thereby an endoscope-like image, which is observed from the catheter in the body cavity of the patient, is taken and displayed in real time or semi-real time so that the insertion of the catheter is supported.
摘要:
An image recording apparatus having a sheet cartridge in which a rolled photosensitive recording medium is accommodated. The sheet cartridge has a sheet retaining device for preventing the recording medium from being retracted into a cartridge casing. The retaining device also provides a light shielding member. The image recording apparatus also includes structure for preventing the cartridge from being removed in a case where a residual recording medium is still rolled in the cartridge casing. The image recording apparatus is provided with a wiper member for removing dusts deposited on a surface of a feed roller. Further, a sensor element is provided for detecting non-rotation of a takeup shaft or a slack of the recording medium.
摘要:
Motor-control device for an image forming apparatus includes a motor, an encoder, a microcomputer, and a driving circuit. The encoder generates a pulse signal in response to rotation of the motor. The microcomputer includes a CPU, a RAM and a ROM. The CPU detects actual rotational speed of the motor based upon the pulse signal generated by the encoder. The CPU cyclically provides a driving signal by comparing the actual rotational speed with a predetermined target rotational speed of the motor. An operating cycle is proportional to a cycle of the pulse signal generated by the encoder. The driving circuit drives the motor based upon the driving signal provided by the CPU. The CPU determines the operating cycle based upon the predetermined target rotational speed. The CPU also determines whether the motor condition is normal or abnormal by comparing the driving signal with a predetermined reference driving signal.
摘要:
An image forming apparatus for performing an exposure process of exposing a microcapsule sheet to light and performing a pressure-developing process of contacting the microcapsule sheet having the latent image thereon with a developer sheet under pressure, thereby to form a visible image on the developer sheet, comprises plural sheet feed rollers for feeding the microcapsule sheet from the sheet feed-out side of the microcapsule sheet to and along a sheet feed path and winding up the microcapsule sheet to thereby perform a sheet feeding operation, an optical sensor or lever sensor provided in the neighboring of the sheet feed-out side of the microcapsule sheet for detecting a sheet feeding condition, such as a residue of the microcapsule sheet, a sheet feed error, a sheet feed speed and so on in the sheet feeding operation and outputting a detection signal indicative of a detection result and a control unit for beforehand storing distance data on the sheet feed path of the latent image forming medium between the sensor and a pressure-developing unit and/or storing data on a sheet feeding condition of the microcapsule sheet based on the detection signal.
摘要:
An image forming apparatus including an image forming device for forming an image on a photosensitive recording medium is disclosed. The image forming device forms the image in accordance with at least one operating parameter. A humidity detecting sensor detects an ambient humidity in the apparatus. A heater changes a relative humidity in the apparatus. A controller controls the heater in accordance with the sensed humidity and optimizes the at least one operating parameter at a temperature changed by the heater.