The present disclosure relates to tape dispensers that provide an easy to use locking mechanism for loading and unloading a roll of tape thereon. The dispenser includes a generally U-shaped frame with a pair of flexible sidewall arm portions that extend rearwardly in a generally side-by-side spaced apart relation. The dispenser includes inwardly facing opposed first and second hub portions that have a roll surface, a bottom surface, and an abutment surface, wherein the roll surface is configured to support the roll thereon. The frame also includes a pair of interlocking tabs disposed on the bottom surfaces hub portions. The tabs include a locking means for securing the hub portions together wherein the abutment surfaces of the first and second hubs are in direct contact.

The present disclosure relates to tape dispensers that provide an easy to use locking mechanism for loading and unloading a roll of tape thereon. The dispenser includes a generally U-shaped frame with a pair of flexible sidewall arm portions that extend rearwardly in a generally side-by-side spaced apart relation. The dispenser includes inwardly facing opposed first and second hub portions that have a roll surface, a bottom surface, and an abutment surface, wherein the roll surface is configured to support the roll thereon. The frame also includes a pair of interlocking tabs disposed on the bottom surfaces hub portions. The tabs include a locking means for securing the hub portions together wherein the abutment surfaces of the first and second hubs are in direct contact.

Disclosed are a winding apparatus and a winding method, the winding apparatus includes: a winding needle, being configured to wind a winding material; a power supply assembly, being configured to be electrically coupled to the winding needle, so as to form current on an axis of the winding needle; and a magnet supply assembly, being configured to provide a magnetic field to the winding needle, a magnetic field direction intersecting the axis of the winding needle so that the winding needle generates an ampere force for resisting a deformation of the winding needle in the magnetic field when the winding material is wound. By the above method, the present application may reduce the deformation of the winding needle, reduce a defective rate of a winding product formed by the winding of the winding material, and improve quality of the winding product.

A sheet processing machine with a transfer mechanism for moving sheets along a handling direction of the sheet processing machine and with a waste evacuation device (36) for releasing the sheets. The transfer mechanism comprises a sheet handling element (28) for moving a sheet, the sheet handling element (28) comprising at least one sliding element (54). The sheet handling element (28) is adapted to release the sheet when passing the waste evacuation device (36). The waste evacuation device comprises at least one alignment element (38) adapted to interact with the at least one sliding element (54) for minimizing deformation of the sheet handling element (28) when passing the waste evacuation device (36).

A transport apparatus includes an idler roller and a drive roller that transport a medium by rotating with the medium being nipped therebetween, a first frame that includes a first position and a second position that is different from the first position, a main guide shaft that extends in a transverse direction that intersects a transport direction of the medium and is joined to the first frame at the first position, a second frame that is joined to the first frame at the second position, and an urging member that exerts a force on the second frame by urging the idler roller toward the drive roller. In the transport apparatus, the first position is located in an overlapping region between the first frame and the second frame in a height direction that orthogonally intersects the transport direction and the transverse direction.

A moving-side roller reliably separates from a stationary-side roller so as to enable appropriate document transport. An image reading apparatus causes a roller support member supporting the moving-side roller to come into contact with the stationary-side roller. A contact state and a separation state can be switched. The image reading apparatus includes an external force providing portion to exert a third external force on the roller support member in a direction for restraining warping that is generated in the roller support member by a first external force that a cam exerts on the roller support member and by a second external force that an urging device exerts on the roller support member.

A sheet conveying apparatus includes: a casing provided with a first conveying path and a second conveying path; a first feeding tray provided in the casing and having a first supporting surface that supports a sheet; a supporting member that supports the first feeding tray from below in the casing; a first feeding section provided above the first supporting surface; a first guide member having a first guide surface to guide the sheet fed from the first feeding tray; a second feeding tray provided below the supporting member in the casing and having a second supporting surface that supports a different sheet; a second feeding section provided above the second supporting surface; a second guide member having a second guide surface to guide the different sheet fed from the second feeding tray; and a frame made of metal and being installed on a lower surface of the supporting member.

A transport apparatus includes an idler roller and a drive roller that transport a medium by rotating with the medium being nipped therebetween, a first frame that includes a first position and a second position that is different from the first position, a main guide shaft that extends in a transverse direction that intersects a transport direction of the medium and is joined to the first frame at the first position, a second frame that is joined to the first frame at the second position, and an urging member that exerts a force on the second frame by urging the idler roller toward the drive roller. In the transport apparatus, the first position is located in an overlapping region between the first frame and the second frame in a height direction that orthogonally intersects the transport direction and the transverse direction.

A sheet conveying apparatus includes: a casing provided with a first conveying path and a second conveying path; a first feeding tray provided in the casing and having a first supporting surface that supports a sheet; a supporting member that supports the first feeding tray from below in the casing; a first feeding section provided above the first supporting surface; a first guide member having a first guide surface to guide the sheet fed from the first feeding tray; a second feeding tray provided below the supporting member in the casing and having a second supporting surface that supports a different sheet; a second feeding section provided above the second supporting surface; a second guide member having a second guide surface to guide the different sheet fed from the second feeding tray; and a frame made of metal and being installed on a lower surface of the supporting member.

Provided is a paper feeding roller in which recesses due to deformation are unlikely to be formed even when contact with another roller in one location continues for a comparatively long period of time, particularly as a conveying roller or the like. A paper feeding roller that has a shaft measuring 6 mm in exterior diameter pressure-welded to the outer circumferential surface under a load of 600 g in a high-temperature environment of 60 C. for 24 hours is left at room temperature for eight hours while being pressure-welded, after which the recess amount obtained using the difference (T).sub.0T.sub.1, between the thickness T.sub.1 (mm) of the position where the shaft was pressure-welded and the thickness T.sub.0 (mm) of a position where the shaft was not pressure-welded, is 0.1 mm or less.