An apparatus for detecting a banknote location is provided, which includes a first, second and third photoelectric sensors installed respectively at the entrance, exit and inside of a banknote passage. The first photoelectric sensor includes a light-emitting end, a light-receiving end, a first reflecting mirror and a second reflecting mirror, for detecting whether a banknote reaches the entrance. The second photoelectric sensor includes a light-emitting end, a light-receiving end, a third reflecting mirror and a fourth reflecting mirror, for detecting whether a banknote reaches the exit. The third photoelectric sensor includes a light-emitting end, a light-receiving end, an upper reflecting mirror group and a lower reflecting mirror group, for detecting whether a banknote is inside the passage.

A method and a device for automatically diagnosing a sorter fault are provided. The method includes: obtaining a banknote image of a banknote by scanning; performing data processing on the banknote image based on a preset detection algorithm, to obtain a processing result; and sending a feedback information if the processing result satisfies a preset condition.

A method and a device for automatically diagnosing a sorter fault are provided. The method includes: obtaining a banknote image of a banknote by scanning; performing data processing on the banknote image based on a preset detection algorithm, to obtain a processing result; and sending a feedback information if the processing result satisfies a preset condition.

An image sensor and a banknote processing apparatus are provided. The image sensor includes a first photosensitive assembly and a first light source assembly which is configured to irradiate light to an original, and further includes a first lens array configured to aggregate light reflected by the original to the first photosensitive assembly, and a light-entering surface of the first lens array is located in a transmission path of reflected light generated due to specular reflection occurred when light emitted from the first light source assembly irradiates on the original. According to different image grayscale values generated by the image sensor, the banknote processing apparatus judges whether a banknote surface is stuck to an adhesive tape.

An image sensor and a banknote processing apparatus are provided. The image sensor includes a first photosensitive assembly and a first light source assembly which is configured to irradiate light to an original, and further includes a first lens array configured to aggregate light reflected by the original to the first photosensitive assembly, and a light-entering surface of the first lens array is located in a transmission path of reflected light generated due to specular reflection occurred when light emitted from the first light source assembly irradiates on the original. According to different image grayscale values generated by the image sensor, the banknote processing apparatus judges whether a banknote surface is stuck to an adhesive tape.

A paper sheet handling machine (for example, a banknote handling machine (10)) includes: a storage unit (for example, an escrow unit (20), banknote storages (30), a banknote storage cassette (40)) configured to store a paper sheet transported from a transport unit (16); and a shifting unit (19) provided in the transport unit (16) and configured to shift the paper sheet transported by the transport unit (16), in a width direction orthogonal to a direction in which the paper sheet is transported, according to a position, in the width direction, of a specific member (for example, a tape (136) in the escrow unit (20), a pair of feed rollers of a banknote feeding mechanism (32, 42) provided in the banknote storages (30), a banknote storage cassette (40)) in the storage unit.

A banknote drive arrangement adjacent a banknote inlet repositions and drives a banknote into a banknote processing pathway for validation. The drive arrangement includes two drive rollers preferably spaced either side of a longitudinal axis of the pathway and adjacent to the banknote inlet. Each drive roller is separately controlled to allow different rotational speeds thereof (and forward and rearward movement Of a banknote) to allow shifting of a received end portion of a banknote before receiving the entire length of the banknote. This arrangement is preferably used with a sensing arrangement for sensing misalignment of an inserted banknote and if sensed, using the different rotational speeds to correct misalignment and preferably center a banknote in the processing pathway.

A system comprising: a document holder; an image sensor directed toward the document holder; a polarized filter between the image sensor and the document holder; a filter motor configured to rotate the polarized filter; one or more processors; and at least one memory having stored thereon computer program code that, when executed by the one or more processors, instructs the one or more processors to: control the filter motor to rotate the polarized filter; control the image sensors to capture a plurality of images of a document within the document holder, the plurality of images corresponding to a respective relative orientations of the polarized filter to the document; identify a feature of the document; and output, in response comparing respective visual characteristics of the feature of the document to corresponding expected visual characteristics of the first feature for the document, an indication of a verification of the document.

A system comprising: a document holder; an image sensor directed toward the document holder; a polarized filter between the image sensor and the document holder; a filter motor configured to rotate the polarized filter; one or more processors; and at least one memory having stored thereon computer program code that, when executed by the one or more processors, instructs the one or more processors to: control the filter motor to rotate the polarized filter; control the image sensors to capture a plurality of images of a document within the document holder, the plurality of images corresponding to a respective relative orientations of the polarized filter to the document; identify a feature of the document; and output, in response comparing respective visual characteristics of the feature of the document to corresponding expected visual characteristics of the first feature for the document, an indication of a verification of the document.

A bill recognizing and counting apparatus includes an operation unit that receives setting of bill processing modes including a denomination mode, a counting mode, a different-denomination recognition mode, and an authenticity determination mode; a feeding and transporting mechanism; and a control unit that performs control for changing a processing speed according to the bill processing mode. When the bill processing mode is in the counting mode, the different-denomination recognition mode, or the authenticity determination mode, the control unit increases the processing speed by setting the feeding and transporting mechanism to a higher speed than the speed set in the denomination mode. The increase in speed is in accordance with a reduced time necessary to process a reduced amount of data associated with the denomination mode.