Abstract: A conveying roller contacts and conveys an optical disc toward a position of a spindle motor when the conveying roller is in a first roller position, and does not contact the optical disc when the conveying roller is in a second roller position. A slider places the conveying roller in the first roller position when the slider is in a first operation member position, and places the conveying roller in the second roller position when the slider is in a second operation member position. A first transmission mechanism transmits rotation of a loading motor to the conveying roller. A second transmission mechanism transmits the rotation of the loading motor to the slider. A distribution mechanism engages with each of the first transmission mechanism and the second transmission mechanism to distribute the rotation of the loading motor to the first transmission mechanism and the second transmission mechanism.

Abstract: The present invention includes a first substrate having a sensor part for measuring a measured factor and a second substrate that is to be detachably stacked on a lower side of the first substrate, the second substrate including: a signal processing part that processes a measurement signal obtained by measurement by the sensor part; a power supply part for feeding power to the sensor part; and at least either a memory that stores measurement data obtained by being processed in the signal processing part or a communication part for transmitting the measurement data by wireless, wherein the second substrate is in common use for a plurality of kinds of first substrates different in measured factor measured by the sensor part from each other.

Abstract: A measuring device may include a housing having an opening where a substrate is carried in; a first sensor including a first light output part emitting first light to the substrate and a first light receiving part sensing the first light reflected from the substrate; a second sensor including a second light output part emitting second light and a second light receiving part sensing the second light, wherein the second light is blocked out by the substrate being carried in the housing; and a controller calculating a vertical displacement of the substrate using the fact that the first light is reflected, calculating a horizontal displacement of the substrate using the fact that the second light is blocked out, and calculating a displacement error of the substrate carried in the housing with respect to a carry-in exact position of the substrate based on the vertical displacement and the horizontal displacement.

Abstract: A slide mechanism includes a main plate, a slide plate, an elastic member, and two connecting members. The main plate includes two rail portions and two guide rails. Each rail portion defines a guiding slot. Each guide rail is received in one of the guiding slot and defines a slide groove. The elastic member is secured on the main plate and the slide plate. The two connecting members are secured to the slide plate and each connecting member is slideably received in one of the guiding slots.

Abstract: An optical disk loading final position detection device includes an optical disk guiding device, a delivery roll, a pair of detection bars provided with detection parts capable of freely rotating around respective rotary pivots, a support part, the middle of the support part being provided with an assorted part interacting with the detection bar, and a trigger bar. One end of the trigger bar is provided with a contact part for contacting the periphery of an optical disk, and the other end being connected to a control part. When the detection bars are rotating, the support part makes the trigger bar move towards the direction directly facing the central line, so, the trigger bar will not extrude out of the maximum outer diameter of the optical disk along the optical disk transport direction, so as to implement miniaturizing the optical disk playing device.

Abstract: A recording medium drive includes a disc ejecting mechanism that ejects an optical disc disposed on a turntable to a slot. The disc ejecting mechanism is provided with a first disc feeding mechanism disposed on a rear side in a drive unit body and a second disc feeding mechanism (a disc guide mechanism) that is disposed on a slot side relative to the first disc feeding mechanism and continuously feeding the optical disc fed by the first disc feeding mechanism in a direction toward the slot. The optical disc having a small diameter can be transferred from the turntable to the slot by the first disc feeding mechanism and the second disc feeding mechanism which are respectively disposed on the rear side and a front side of the slot, thereby ejecting the optical disc to the outside.

Abstract: An apparatus, system, and method are disclosed for a data storage apparatus with a secondary optical memory. The data storage apparatus includes a data storage cartridge, a primary data storage medium in the data storage cartridge, and a secondary optical storage medium attached to the data storage cartridge. The data storage apparatus, in one embodiment, includes a beam splitter attached to the data storage cartridge. The beam splitter may be positioned at approximately a 45 degree angle in relation to a data storage surface of the secondary optical storage medium.

Abstract: An integrated reproducing/recording apparatus (10) comprises a magnetic reproducing/recording device (11), an optical reproducing/recording device (12) and a spindle (13) located therebetween. The magnetic reproducing/recording device has a magnetic disk (111) with a center hole (113) and a magnetic pickup head (112). The optical reproducing/recording device has an optical disk (121) with a center hole (123) and an optical pickup head (122). The spindle has fixtures at each end thereof. The magnetic disk or the optical disk is selectively fixed on the spindle.

Abstract: A transfer device is provided that ensures transfer of information carriers of different dimensions due to a single loading device including a detection mechanism means (32) associated with linking elements (40). Upon the insertion of an information carrier, the linking elements (40) cooperates with a projection (50A, 50B) set in relation with the size of the inserted information carrier. The projection is supported by a slider (52) that actuates clamping and driving mechanisms to ensure the setting of the inserted information carrier in its operative position. Thus, the synchronization between the clamping and driving mechanisms is made in relation with the size of said carrier.

Abstract: In an optical loading apparatus, by including a main roller installed at an inlet side of an optical disc drive; a disc guide installed in the opposite direction of the main roller with an inserted disc therebetween; a disc path control member which can change disc path; a small disc stopping member formed at the drive in order to make an inserted small disc stop at a position mountable onto a spindle; and a large disc stopping member formed at the drive in order to make an inserted large disc stop at a position mountable onto a spindle, it is possible to reduce a fabrication cost by reducing the number of parts by simplifying a structure, and accordingly different-sized optical discs can be reliably loaded.

Abstract: A recording medium cartridge includes a disc, an inner rotor and a shutter in a shell. Torque is applied to the inner rotor by a coil spring to drive the shutter so as to maintain the closed state of an opening part provided in the shell. When the recording medium cartridge is inserted into a disc device, the inner rotor is rotated against the resilient force of the coil spring by a shutter opening mechanism provided in the disc recording and reproducing device. Thus, the shutter is moved to a position where the opening part provided in the shell is opened. When the cartridge is ejected from the disc device, the inner rotor is rotated by the resilient force of the coil spring to close the shutter.