A bill softness recognition method and a bill softness recognition device are provided. The method includes: receiving bills; extracting and separating the bills to make the bills enter a bill channel in a separated manner; capturing a single-bill image and a bill background image of each of the extracted bills; rolling the extracted bill to make the bill press a plurality of prearranged force sensors; acquiring effective force signals fed back from the force sensors; acquiring an inclination angle of the bill based on the single-bill image and the bill background image; determining, based on the inclination angle, the force sensor that is pressed by the bill as an effective force sensor; and judging whether the effective force signal of the effective force sensor meets a preset softness condition, and determining the bill as a soft bill if the effective force signal meets the preset softness condition.

A bill softness recognition method and a bill softness recognition device are provided. The method includes: receiving bills; extracting and separating the bills to make the bills enter a bill channel in a separated manner; capturing a single-bill image and a bill background image of each of the extracted bills; rolling the extracted bill to make the bill press a plurality of prearranged force sensors; acquiring effective force signals fed back from the force sensors; acquiring an inclination angle of the bill based on the single-bill image and the bill background image; determining, based on the inclination angle, the force sensor that is pressed by the bill as an effective force sensor; and judging whether the effective force signal of the effective force sensor meets a preset softness condition, and determining the bill as a soft bill if the effective force signal meets the preset softness condition.

A thickness detection device for sheet-type medium includes a fixing frame, a reference shaft and a detection assembly shaft. A reference roller is fixedly sleeved on the reference shaft. At least one detection roller is provided on the detection assembly shaft, and the detection roller is in an elastic contact with the reference roller. The detection roller is sleeved on the detection assembly shaft by a bracket, the bracket has an elongated hole through which the bracket is sleeved on the detection assembly shaft, an elastic element is provided between an end of the elongated hole and the detection assembly shaft, and the elastic element enables the detection assembly shaft to elastically maintain a certain distance from the end of the elongated hole. Thus, thickness signal obtained is not interfered by banknote displacements in other directions, and thickness detection of the full banknote can be achieved.

A paper-sheet-thickness detecting sensor of the present invention includes: an oscillator that outputs high-frequency signals with frequencies corresponding to positions in a horizontal direction that is orthogonal to a direction in which a paper sheet is transported; a signal electrode to which the high-frequency signals output by the oscillator are applied; a plurality of detection electrodes that face the signal electrode across a transportation path for the paper sheet and that individually detect detection signals that correspond to the positions; a plurality of resonance circuits that each have one end connected to one end of each of the plurality of detection electrodes and that have resonance frequencies equal to the frequencies allocated to the positions; and a broadband amplifier to which another end of each of the plurality of resonance circuits is connected and that outputs outputs of the plurality of resonance circuits as one piece of sensor output information.

A sensing system is described herein. The sensing system includes a sampling module configured to define a sampling interval. The sensing system also includes a plurality of sensors to sample an inserted item based at least on the sampling interval. The sensing system includes a tracking module configured to obtain start sensor data from the sensors, determine if start sensor data is absent, increment an absence count based at least on the determination, compare the absence count with a threshold absence count, and reject the inserted item based at least on the comparison.

A sensing system is described herein. The sensing system includes a sampling module configured to define a sampling interval. The sensing system also includes a plurality of sensors to sample an inserted item based at least on the sampling interval. The sensing system includes a tracking module configured to obtain start sensor data from the sensors, determine if start sensor data is absent, increment an absence count based at least on the determination, compare the absence count with a threshold absence count, and reject the inserted item based at least on the comparison.

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.

The present invention relates to an ultrasonic sensor for detecting double sheets and a method of detecting double sheets using the same, in which in configuring the ultrasonic sensor for detecting double sheets of banknotes passing through a transfer path, the ultrasonic sensor is configured to include an ultrasonic wave generator and an ultrasonic wave receiver provided in pair to face each other in a direction perpendicular to a transfer direction of the banknotes with the transfer path for transferring the banknotes interposed therebetween, and periodicity of a reception signal detected by the ultrasonic wave receiver is determined to detect whether a zero sheet, a single sheet or double sheets of the banknotes pass through the transfer path according to generation or not of the periodic signal and/or a frequency of the generation.

A banknote recognition method based on sorter dust accumulation and a sorter. An effective region boundary is determined by using a gray-scale difference between a foreground and a background of a sensor image signal, an edge is searched for by comprehensive means of signal features of various sensors, detection direction change and secondary scanning, and finally the effective boundary of the image region is relocated, so that the detection rate and recognizing accuracy of the sorter can be greatly improved. The sorter comprises a banknote inlet, a banknote outlet, a banknote exit port, a conveying rail and a recognizing module. The recognizing module comprises two sets of CIS image sensors arranged oppositely, two sets of light transmitting plates arranged oppositely, a storage module, a detection module and a display module.

A thickness detection device, which is used for avoiding the condition where abnormal features, such as foreign matter and damaged apertures, pass through a gap, so that the thickness detection device does not have a detection blind area. The thickness detection device comprises: a plurality of thickness sensors (1101, 1102, 1103 . . . 1111, 1112) which are divided into two rows, i.e. a front row and a rear row in the advance direction of a slice medium, wherein an interlaced distribution is formed between the two rows of thickness sensors (1101, 1102, 1103 . . . 1111, 1112), so that any point on the slice medium passes through the sensing coverage range of the thickness sensors (1101, 1102, 1103 . . . 1111, 1112) in the advance direction.