Disclosed herein is a dispenser for adhesive fabrics or tapes, such as bandages or other adhesive medical fabrics or correction tapes. The dispenser has a case in which a supply reel and a take-up reel are mounted. A belt having adhesive fabrics or tapes thereon extends from the supply reel through one or more openings to the exterior of the case, and thence to a take-up reel. The supply reel and the take-up reel are coupled so that the belt is wrapped around the take-up reel as it is unwound from the supply reel and advances to move an adhesive fabric or tape to the exterior of the case for dispensing. The dispenser may optionally have an activation device that allows a user to extend a portion of an adhesive fabric outside the dispenser and dispense and apply the adhesive fabric to a human skin with one hand.

A sheet processing apparatus includes a shift unit including a pair of first conveying rollers that nip and convey a sheet and being able to move in a width direction orthogonal to a conveyance direction of the sheet in a state of nipping the sheet; a drive gear configured to transmit a driving force from a drive motor; a rack gear including a rack portion that meshes with the drive gear, the rack gear being configured to receive the driving force from the drive gear via the rack portion and, thereby, move the shift unit in the width direction in a state of nipping the sheet with a pair of first conveying rollers; a guide member configured to guide movement of the shift unit in the width direction; and a supporting member configured to nip the rack gear between the supporting member and the drive gear and support the rack gear, in which the rack gear is rotatable with respect to the shift unit on a plane parallel to the conveyance direction and the width direction.

A gear engagement mechanism of a life device includes a lifting member interlocking with a lifting tray to linearly move in a vertical direction, and a gear train having a pinion engaged with the rack to transmit a rotary motion to the rack and transmitting the rotation torque of a lift motor M to the pinion. When the lifting member has over-run an upper limit stop position and a lower limit stop position, engagement of the pinion and the rack is released.

A processing device includes a processing unit and a medium accommodation portion, and the medium accommodation portion includes a flexible sheet-like accommodation member, a pivot shaft to which one end of the accommodation member is coupled, an operation portion to which the other end of the accommodation member is coupled and that is provided separably from the pivot shaft, and a pair of support portions that supports both ends of the operation portion, and the accommodation member is wound around the pivot shaft and stored inside the housing when the operation portion approaches the pivot shaft, and is unwound from the pivot shaft and hung down to accommodate the medium when the operation portion is separated from the pivot shaft, and holds a weight closer to the other end than to an intermediate position between the one end and the other end in the advance and retreat direction.

The present disclosure provides a multi-filament helical winding device. The device includes a frame, a multi-filar guide radial telescopic portion, a multi-filar guide rotation portion. The multi-filar guide radial telescopic portion and the multi-filar guide rotation portion are arranged on the frame, and the multi-filar guide radial telescopic portion is connected to the multi-filar guide rotation portion. A count of the multi-filar guide radial telescopic portion is the same as a count of the multi-filar guide rotation portion, and the multi-filar guide radial telescopic portion corresponds to the multi-filar guide rotation portion one by one. The multi-filar guide radial telescopic portion includes a first telescopic mechanism or a second telescopic mechanism. The multi-filar guide rotation portion includes a first rotation mechanism or a second rotation mechanism.

An automated teller machine includes: a deposit and withdrawal unit configured to allow deposit and withdrawal of a medium, which allows a bundle of media including multiple stacked media to be deposited; a discrimination unit that discriminates the medium; a storage unit in which the medium is stored; a conveyance path that transfers the medium between the deposit and withdrawal unit, the discrimination unit, and the storage unit. The deposit and withdrawal unit includes: a push plate unit on which the bundle of media is placed; a first pick-up roller for transferring the bundle of media in a deposit direction toward the discrimination unit when the bundle of media is placed on the push plate unit; and a second pick-up roller, disposed to be spaced apart from the first pick-up roller in the deposit direction, for transferring the medium from the bundle of media in the deposit direction.

A recording device includes a medium receiving tray that receives a medium ejected by an ejection roller, the medium receiving tray being capable of taking a first state and a second state displaced from the first state in an ejection direction, a power transmission section that can take a power transmission state in which power of the motor is transmitted to the medium receiving tray and a power non-transmission state in which the power of the motor is not transmitted, the power transmission section including a friction gear as a power transmission path member, a switching lever section that moves the carriage to switch the power transmission section between the power non-transmission state and the power transmission state, and a holding portion that holds a position of the switching lever section.

The controller causes, when the motor temperature becomes equal to or higher than ta2, the motor to stop for x1 seconds each time one banknote is transported until the motor temperature becomes equal to or lower than ta1, when the motor temperature becomes equal to or higher than ta4, the motor to stop for x2 seconds each time one banknote is transported until the motor temperature becomes equal to or lower than ta3, when the motor temperature becomes equal to or higher than ta6, the motor to stop until the motor temperature becomes equal to or lower than ta4, and when the reading sensor temperature becomes equal to or higher than tb2, the motor to stop until the reading sensor temperature becomes equal to or lower than tb1, where tb1<tb2<ta1<ta2<ta3<ta4<ta6, and x1<x2.

A processing device includes a processing section and a medium receiving section, wherein the medium receiving section has a sheet-like receiving member having flexibility, a pivot shaft coupled to one end of the receiving member, an operation section coupled to the other end of the receiving member and provided separable from the pivot shaft, and a pair of support sections that support both ends of the operation section, and the receiving member is wound around the pivot shaft and housed inside of the housing when the operation section approaches the pivot shaft, and is unwound from the pivot shaft and hangs down receivable the medium when the operation section is separated from the pivot shaft, and is wound around the pivot shaft such that contacting side with the medium is an inner side when the receiving member is wound around the pivot shaft.

The present invention provides a transport guide drive mechanism that corrects the transport state in a paper sheet transport device including a wide transport surface that can be used in common for paper sheets with different width dimensions, to a normal state while preventing a deformation or a damage of the paper sheets during continuous and unintermittent transport. The transport guide drive mechanism includes transport guides 310 that are arranged along both side edges of a transport surface 11 in a width direction to oppose each other and that respectively guide both side edges of a paper sheet to be transported, an advancing/retreating mechanism 350 that causes the transport guides to synchronously protrude and retract in a predetermined direction, stoppers 440 each of which defines a protruded position where an associated one of the transport guides 310 is most protruded from the transport surface 11 and a retracted position retracted from the protruded position toward the transport surface, and a DC motor 450 that drives the advancing/retreating mechanism 350.