KR20130044003A - Apparatus and method for measuring media thickness - Google Patents

Abstract

PURPOSE: A medium thickness measuring device and a method thereof are provided to quantitatively measure the thickness of a medium according to the amount of lights passing through a light amount measuring gauge slit which vertically moves according to the thickness of the medium. CONSTITUTION: A medium thickness measuring device comprises a transferring roller, a light amount measuring gauge slit(20), a light emitting unit(30), a light receiving unit(40), and a medium thickness calculator(50). The transferring roller transfers a medium. The light amount measuring slit vertically moves according to the thickness of the medium from the upper part of the transferring roller and includes a transmitting unit transmitting lights. The light emitting unit irradiates lights to the light amount measuring gauge slit. The light receiving unit collects the lights transmitted through the light amount measuring gauge slit. The medium thickness calculator measures the thickness of the medium according to the amount of the lights which are collected by the light receiving unit. [Reference numerals] (50) Medium thickness calculator

Description

Apparatus and Method for Measuring Media Thickness

The present invention relates to an apparatus for measuring the thickness of media, and more particularly, to an apparatus and a method for measuring the thickness of media in accordance with a change in light quantity.

The automated teller machine is an automated device that provides financial services such as deposit or withdrawal regardless of time and place in relation to the work of the financial institution without the employees of the financial institution.

The automated teller machine can be divided into cash dispenser and cash dispenser according to whether or not it is withdrawn. Recently, it has been used for cash withdrawal, check deposit, withdrawal, bank account, giro fee payment, ticket release.

The automated teller machine is provided with a paper thickness measuring device for preventing the counting of two or more sheets into one sheet when counting the media for depositing and withdrawing paper such as cash or check.

In the conventional medium thickness measuring apparatus, a plurality of light receiving sensors are arranged in a circle based on one light emitting sensor, and when the medium is inserted, the light receiving sensor detects the rotation angle of the detection axis of rotation that rotates according to the thickness of the medium so that the thickness of the medium is measured. Detect. As described above, in the method of detecting the thickness by sensing the rotation angle, an error occurs in the rotation angle of the detection rotation axis according to the surface state of the medium, and thus an error occurs in detecting the thickness of the medium.

The present invention provides an apparatus and method for measuring the thickness of a medium in response to changes in light quantity.

The present invention provides an apparatus and method for measuring the thickness of a paper for precisely measuring a change in light quantity.

According to an aspect of the present invention, there is provided an apparatus for measuring a thickness of a medium, comprising: a feed roller for conveying a medium, a light quantity measuring gauge slit having a through portion configured to move up and down according to a medium thickness at an upper portion of the feed roller, and to allow light to pass therethrough; And a light emitting unit for irradiating light to the slit, a light receiving unit for collecting light passing through the light quantity measuring gauge slit, and a medium thickness calculating unit for measuring the thickness of the medium according to the amount of light collected by the light receiving unit.

The present invention provides a method for measuring the thickness of a medium, the method comprising: irradiating light to a light quantity measuring gauge slit having a through portion which is moved up and down according to the thickness of the medium and allows light to pass as the medium is transferred; Receiving the light passed through the light; calculating a voltage value corresponding to the light quantity of the received light; and calculating a medium thickness according to the calculated voltage value.

According to the present invention, the medium thickness can be quantitatively measured according to the amount of light passing through the light quantity measuring gauge slit moved up and down according to the medium thickness. In addition, the through-light through which light can pass in the light quantity gauge slit in various forms, there is an advantage that can accurately measure the thickness of the medium.

1 is a perspective view of a configuration of a medium thickness measuring apparatus according to a preferred embodiment of the present invention.
FIG. 2 is a diagram illustrating an example of a light quantity measuring gauge slit that moves up in response to a change in medium thickness.
3 is a diagram illustrating various embodiments of a light quantity measuring gauge slit.
4 is a flowchart illustrating a method for measuring the thickness of a medium according to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

In describing the present invention, when it is determined that detailed descriptions of related well-known functions or constructions may unnecessarily obscure the gist of the embodiments of the present invention, the detailed descriptions thereof will be omitted. As terms defined in consideration of functions in the embodiments are matters that can be sufficiently modified according to a user's or operator's intentions, customs, and the like, these terms should be defined based on the contents throughout the specification of the present invention.

1 is a view showing the configuration of a medium thickness measuring apparatus according to a preferred embodiment of the present invention. In the present embodiment, the medium includes, for example, a check, a certificate, a ticket, a foreign banknote, a card, and the like, and may be conveyed by a conveying roller.

Referring to FIG. 1, the apparatus for measuring the thickness of a medium includes a feed roller 10 for conveying a medium, and a through portion 20a that moves up and down according to the thickness of the medium at an upper portion of the feed roller 10, and passes light. Is provided, the light quantity measuring gauge slit 20, the light emitting portion 30 for irradiating light to the light quantity measuring gauge slit 20, and the light receiving portion 40 for collecting the light passing through the light quantity measuring gauge slit 20. And a media thickness calculator 50 for measuring the media thickness according to the amount of light collected by the light receiver 40.

The conveying roller 10 is comprised by the cylindrical drive roller 10a and the cylindrical flow roller 10b located in the upper part of the drive roller 10a. When the medium is transferred to the conveying roller 10, the flow roller 10b moves up and down according to the thickness of the medium.

The light quantity measuring gauge slit 20 is located above the flow roller 10b, and the position is moved up and down together as the flow roller 10b moves up and down by the thickness of the medium. In addition, a penetrating portion 20a through which the light irradiated by the light emitting portion 30 passes is formed in the light quantity measuring gauge slit 20. Therefore, the amount of light passing through the penetrating portion 20a varies depending on the position of the light quantity measuring gauge slit 20.

Referring to FIG. 1, since the thickness of the medium is thin, the light quantity measuring gauge slit 20 is positioned below, and the light irradiated by the light emitting unit 30 is blocked by the light quantity measuring gauge slit 20 to receive the light receiving unit 40. Never reach Therefore, there is no amount of light collected by the light receiving portion 40.

FIG. 2 is a diagram illustrating an example of a light quantity measuring gauge slit that moves up in response to a change in medium thickness.

Referring to FIG. 2, as the medium becomes thicker, the flow roller 10b is raised, and thus the position of the light quantity measuring gauge slit 20 is also raised. Then, the light irradiated from the light emitting part 30 passes through the through part 20a of the light quantity measuring gauge slit 20 to face the light receiving part 40.

However, the shape of the penetrating portion 20a formed in the light amount gauge slit 20 in order to finely adjust the light amount change may be various embodiments.

3 is a view illustrating various embodiments of the light amount measuring gauge slit of the present invention.

Referring to (a) of FIG. 3, it can be seen that a plurality of rectangular through-holes of the same size that are horizontally long are arranged at regular intervals in the light quantity measuring gauge slit 20. Referring to FIG. 3B, the light quantity measuring gauge slit 20 has a single through-hole as shown in FIG. 1. Referring to FIG. 3C, the light quantity measuring gauge slit 20 is formed with a plurality of vertically long rectangular through-holes whose upper sides are reduced at regular intervals. Referring to FIG. 3 (d), the light quantity measuring gauge slit 20 is formed with a plurality of vertically long through-holes whose height of the lower side is increased at regular intervals. Referring to FIG. 3E, holes having the same shape having the same spacing in the light quantity measuring gauge slit 20 have a form formed at a predetermined interval.

Referring back to FIG. 1, the light emitter 30 irradiates light to the light amount gauge slit 20 as the medium is transferred. The light receiving unit 40 collects the light passing by the light quantity measuring gauge slit 20 to measure the light quantity, and outputs a voltage value corresponding to the light quantity. When light is blocked by the light amount measuring gauge slit 20 as shown in FIG. 1, the voltage Vout = 0 output from the light receiving unit 40 may be zero. However, as shown in FIG. 2, when light is passed by the light quantity measuring gauge slit 20, the light receiving unit 40 outputs a corresponding voltage value.

The medium thickness calculation unit 50 calculates and outputs a thickness value of the medium according to the voltage value output by the light receiving unit 40. The medium thickness calculation unit 50 stores the thickness information table corresponding to the voltage value in advance, and detects the thickness value mapped to the voltage value output by the light receiving unit 40 from the table. Such a thickness information table may vary according to an embodiment of the penetrating part shown in FIG. 3.

In addition, although not shown in the drawings, a display unit for additionally outputting the medium thickness measurement result information calculated by the medium thickness calculator 50 may be included. The display unit 60 outputs thickness information, and a liquid crystal display (LCD) is common, but other type indicators such as an electroluminescence display (ELD) may be used.

4 is a view for explaining a method for measuring the thickness of a medium according to a preferred embodiment of the present invention.

Referring to FIG. 4, as the medium is transferred in step 410, the light emitter 30 irradiates light to the light quantity measuring gauge slit 30 in step 420. In operation 430, the light receiving unit 40 receives the light irradiated through the light quantity measuring gauge slit 30. At this time, the received light increases with the thickness of the transported medium.

The light receiver 40 collects the light passing through the light quantity measuring gauge slit 30 in step 430, measures the light amount of the light collected in step 440, and outputs a voltage value corresponding thereto. Then, the media thickness calculator 50 calculates the media thickness according to the voltage value output in step 450. That is, the medium thickness value mapped to the voltage value is detected from the medium thickness information table according to the voltage value. Although not shown in the figure, the calculated media thickness value is output through the display unit.

Claims (8)

A conveying roller for conveying the medium,
An optical quantity gauge slit having a through portion configured to move upward and downward according to the thickness of the medium at an upper portion of the transfer roller, and to allow light to pass therethrough;
A light emitting unit for irradiating light to the light quantity measuring gauge slit;
A light receiving unit collecting light passing through the light quantity measuring gauge slit;
And a medium thickness calculator for measuring a medium thickness according to the amount of light collected by the light receiver.
The method of claim 1, wherein the light measuring gauge slit
A device for measuring the thickness of a medium, characterized in that a plurality of horizontally equal through rectangles are arranged at regular intervals.
The method of claim 1, wherein the light measuring gauge slit
And a plurality of vertically long rectangular through-holes whose upper sides are reduced at regular intervals.
The method of claim 1, wherein the light measuring gauge slit
Apparatus for measuring the thickness of a medium, characterized in that a plurality of vertically long through-holes are formed in which the height of the lower side is increased at regular intervals.
The method of claim 1, wherein the light measuring gauge slit
A device for measuring the thickness of a medium, wherein holes having the same shape having the same distance are formed at a predetermined interval.
The method of claim 1, wherein the light receiving unit
Output the voltage value corresponding to the amount of light,
Media thickness calculator
And a thickness value of the medium according to the voltage value output by the light receiving unit.
The method of claim 6, wherein the medium thickness calculation unit
And a thickness information table corresponding to the voltage value is previously stored, and the thickness value mapped to the voltage value output by the light receiving unit is detected from the table.
As the medium is transported, irradiating light to a photometric gauge slit which is moved up and down according to the thickness of the medium, and has a through portion through which light passes;
Receiving light irradiated through the photometric gauge slit;
Calculating a voltage value corresponding to the amount of light of the received light;
And calculating a thickness of the medium according to the calculated voltage value.

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