摘要:
Disclosed is a disk label printer that includes a slot-in type optical disk driving mechanism and a printing mechanism integrated with each other, has a small size, and smoothly transfers optical disks. The disclosed disk label printer includes: a case that has a slot through which an optical disk is inserted or ejected formed therein; an optical disk driving mechanism that is provided in the case and writes and/or reads signals to and/or from the optical disk mounted to a disk mounting portion; and a printing mechanism that is provided in the case and includes a thermal head which prints a desired image on a label surface of the optical disk. The printing mechanism is provided on a transfer path of the optical disk toward the optical disk driving mechanism between the slot and the optical disk driving mechanism. The thermal head and a platen roller come into pressure contact with each other with the optical disk interposed therebetween on the transfer path, only when the optical disk is transferred during the driving of the printing mechanism. The thermal head and the platen roller are withdrawn from the transfer path so as to be separated from each other, when the optical disk is transferred during operations other than the driving of the printing mechanism.
摘要:
Disclosed is a disk label printer that includes a slot-in type optical disk driving mechanism and a printing mechanism integrated with each other, has a small size, and prints a high-quality image on the label surface of an optical disk. The disclosed disk label printer includes: a case that has a slot through which an optical disk is inserted or ejected formed therein; an optical disk driving mechanism that is provided in the case and writes and/or reads signals to and/or from the optical disk mounted to a disk mounting portion; and a printing mechanism that is provided in the case and includes a thermal head printing a desired image on a label surface of the optical disk. The printing mechanism is provided on a transfer path of the optical disk toward the optical disk driving mechanism between the slot an optical disk driving mechanism.
摘要:
Disclosed is a disk label printer that includes a slot-in type optical disk driving mechanism and a printing mechanism integrated with each other, has a small size, and smoothly transfers optical disks. The disclosed disk label printer includes: a case that has a slot through which an optical disk is inserted or ejected formed therein; an optical disk driving mechanism that is provided in the case and writes and/or reads signals to and/or from the optical disk mounted to a disk mounting portion; and a printing mechanism that is provided in the case and includes a thermal head which prints a desired image on a label surface of the optical disk. The printing mechanism is provided on a transfer path of the optical disk toward the optical disk driving mechanism between the slot and the optical disk driving mechanism. The thermal head and a platen roller come into pressure contact with each other with the optical disk interposed therebetween on the transfer path, only when the optical disk is transferred during the driving of the printing mechanism. The thermal head and the platen roller are withdrawn from the transfer path so as to be separated from each other, when the optical disk is transferred during operations other than the driving of the printing mechanism.
摘要:
A thermal transfer printer of the intermediate transfer type that first melts ink of an ink ribbon by heat of a thermal head and subsequently transfers the molten ink onto an intermediate transfer member to thereby form a primary recording image, and finally re-transfers this primary recording image onto paper to thereby perform a desired recording. The intermediate transfer member is made of a material selected in such a manner that the coefficient of friction for this material is equal to or more than 1.0. In one embodiment, the material of the intermediate transfer member is silicon rubber.
摘要:
Teeth-shaped portions 11b of a magnet 11 are formed in such a way that a part of the plane of projection of each of the teeth-shaped portions protrudes in a circumferential direction with respect to that of one of teeth 8b and 9b which is viewed from an axial direction of a first stator core 8 and a second stator core 9.
摘要:
A rotor is formed with a partition wall interposed between a first magnetic body and a second magnetic body. Projections of the partition wall block gaps between salient poles of the first magnetic body and salient poles of the second magnetic body which are arranged at shifted positions when seen in an axial direction of a rotating shaft to shield a flow of air flowing in the axial direction. Notches are formed in parts other than the gaps to decrease a volume thereof and to reduce inertia thereof.
摘要:
A solid-state image pickup device includes a plurality of effective pixels each including a photoelectric conversion element and an OB pixel that is provided outside of an area where the effective pixels are formed and obtains the same output with a dark output of the effective pixel. Each of the effective pixels includes a first signal read-out circuit formed on a semiconductor substrate. The OB pixel includes a second signal read-out circuit formed on the semiconductor substrate and a capacitor connected to an input node of the second signal read-out circuit. The second signal read-out circuit has the same configuration as the first signal read-out circuit. A capacitance value of the capacitor is a value that renders the capacitance value at the input node of the first signal read-out circuit and the capacitance value at the input node of the second signal read-out circuit to be substantially equal to each other.
摘要:
A solid-state imaging device includes an array of pixels, each pixel includes: a pixel electrode; an organic layer; a counter electrode; a sealing layer; a color filter; a readout circuit; and a light-collecting unit as defined herein, the photoelectric layer contains an organic p type semiconductor and an organic n type semiconductor, the organic layer further includes a charge blocking layer as defined herein, an ionization potential of the charge blocking layer and an electron affinity of the organic n type semiconductor in the photoelectric layer has a difference of at least 1 eV, and the sealing layer includes a first sealing sublayer formed by atomic layer deposition and a second sealing sublayer formed by physical vapor deposition and containing one of a metal oxide, a metal nitride, and a metal oxynitride.
摘要:
A solid-state image pickup device includes a plurality of effective pixels each including a photoelectric conversion element and an OB pixel that is provided outside of an area where the effective pixels are formed and obtains the same output with a dark output of the effective pixel. Each of the effective pixels includes a first signal read-out circuit formed on a semiconductor substrate. The OB pixel includes a second signal read-out circuit formed on the semiconductor substrate and a capacitor connected to an input node of the second signal read-out circuit. The second signal read-out circuit has the same configuration as the first signal read-out circuit. A capacitance value of the capacitor is a value that renders the capacitance value at the input node of the first signal read-out circuit and the capacitance value at the input node of the second signal read-out circuit to be substantially equal to each other.
摘要:
The present application provides a method for adjusting spring characteristics of a spring to desired spring characteristics. In the adjusting method of the present application, first, the spring is compressed until a “load-displacement” measurement line obtained by measuring the load applied to the spring and the displacement of the spring meets a “load-displacement” target line determined based on “load-displacement” characteristics of the spring and the desired spring characteristics (S10-S14). Next, the spring is expanded such that the load applied to the spring decreases along the “load-displacement” target line (S18).