JP2897238B2 - Fingerprint data input device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a fingerprint data input device for inputting a fingerprint pattern as data.

B. Summary of the Invention The present invention provides a fingerprint data input device that inputs a fingerprint pattern as data, by detecting that a sampling surface of the fingerprint pattern is pressed with a predetermined force and inputting the fingerprint pattern data. In this case, it is possible to input fingerprint pattern data that enables individual identification with high accuracy by a simple operation.

C. Prior Art In general, various devices for performing individual identification with high accuracy using physical characteristics of a human body are known. Above all, fingerprint patterns are considered to be reliable as personal identification information that cannot be forged or transferred.

As a fingerprint data input device for inputting such a fingerprint pattern as data, there is conventionally known, for example, the one shown in the external perspective view of FIG.

That is, the conventional fingerprint data input device 100 is
A sensor portion 103 formed in a concave shape for inserting the finger 102, a key input portion 104, a display portion 105, and the like are provided on an upper surface portion of the sensor portion 103, and the sensor portion 103 is a fingerprint pressed by the finger 102. The sampling surface of the pattern is formed of a transparent optical member, and a light-emitting diode (LE
A device for illuminating the finger 102 such as D), a fingerprint pattern image capturing device such as an image sensor (CCD image sensor), and the like are provided.

In such a fingerprint pattern input device 100, the user presses the key input unit 104 with another finger while pressing the finger 102 against the sensor portion 103, thereby the finger 102
The means for illuminating the device, the means for capturing a fingerprint pattern, and the like operate to input the fingerprint pattern as data.

D. Problems to be Solved by the Invention However, in the conventional fingerprint data input device 100,
In order to input the data of the fingerprint pattern, two operations are required in which the user presses the key input unit 104 with another finger while pressing the finger 102 on the sensor part 103 as described above. Was. For this reason, the conventional fingerprint data input device 100 has a disadvantage that the operation for inputting the fingerprint pattern data is complicated.

In addition, in the conventional fingerprint data input device 100, the fingerprint pattern is delicately deformed by the degree of the force pressing the finger 102 against the sensor portion 103, so that there is a high possibility of erroneous recognition. There are also drawbacks, such as the need for complicated data processing for identification.

The present invention has been proposed in view of such circumstances, and has as its object to provide a novel method capable of inputting data of a fingerprint pattern capable of identifying individuals with high accuracy by a simple operation. Another object of the present invention is to provide a fingerprint data input device having the above configuration.

E. Means for Solving the Problems In order to achieve the above object, the fingerprint data input device according to the present invention has a first surface of a prism having a substantially triangular cross section in the pressing direction, and the first surface of the prism has a fingerprint pattern. A transparent optical member having a surface portion, a holding member for holding the transparent optical member elastically displaceable in a direction perpendicular to the sampling surface portion, and an apex position opposed to the sampling surface portion of the transparent optical member; Detecting means for detecting that the surface is pressed by a predetermined force; and a second different from the first surface of the transparent optical member in accordance with a detection output from the detecting means.
Lighting means for illuminating the sampling surface portion through the surface of the light, and light from the lighting means reflected by the sampling surface portion is directed to a third surface different from the first and second surfaces of the transparent optical member. And photoelectric conversion means for photoelectrically converting the light, and controlling the input of the output of the photoelectric conversion means as fingerprint pattern data in accordance with the detection output of the detection means.

F. Function In the fingerprint data input device according to the present invention, since the holding member has elasticity, when a finger is pressed against the sampling surface of the fingerprint pattern which is the first surface of the prism provided on the transparent optical member, The transparent optical member is displaced in a direction perpendicular to the sampling surface by the pressing force.

Pressing of the sampling surface with a predetermined force is detected by the detecting means from the displacement of the optical member, and the detection output is sent to the control means.

The fingerprint portion of the finger pressed against the sampling surface is illuminated by the illuminating means via the second surface, and reflected light from the sampling surface corresponding to the fingerprint pattern is reflected via the third surface. It is guided to the photoelectric conversion means and is subjected to photoelectric conversion.

Then, the control means causes the output of the photoelectric conversion means to be input as fingerprint pattern data in response to the detection output from the detection means.

For this reason, data of a fingerprint pattern when pressed with a predetermined force is input simply by pressing a finger against the sampling surface.

G. Examples Hereinafter, examples of the present invention will be described in detail with reference to the drawings.

As shown in FIGS. 1 and 2, a fingerprint data input device 1 according to a first embodiment of the present invention includes an optical member via a damper 3 as a holding member on a support portion 9 which is a part of a housing. Is held. The above prism 2
Is formed of a material such as glass having good light transmittance so as to have a substantially inverted triangular cross section, and a switch 4 serving as a detecting means is attached to a lowermost top portion thereof. In the vicinity of the left and right side surfaces of the prism 2, an LED 5 as illumination means and a CCD image sensor 6 as photoelectric conversion means are provided. The switch 4, the LED 5, and the CCD image sensor 6 are connected to a control unit 20 as control means.
Is electrically connected to

The upper surface of the prism 2 is provided with a fingerprint pattern sampling surface 7 serving as a first surface, so that the fingerprint of a finger 8 can be pressed as shown in FIG. The damper 3 is made of a material exhibiting a predetermined elasticity. When a finger 8 is pressed against the sampling surface 7, the pressing force exerts a force on the sampling surface 7 as shown by an arrow A in FIG. When the prism 2 is displaced in a direction perpendicular to the above, and the prism 2 is displaced to a predetermined position, the switch 4 is turned on. Further, as shown in FIG.
When the finger 8 is released from the sampling surface portion 7, the prism 2 returns in the direction opposite to the arrow A as shown by the arrow B in the figure, and the switch 4 is turned off. For this reason, the fact that the sampling surface section 7 is pressed with a predetermined force is detected by turning on the switch 4, and the detection output is sent from the control section 20.

The fingerprint of the finger 8 pressed against the sampling surface 7 is illuminated at a desired illuminance by light Li emitted from the LED 5 and diffused through the second surface of the prism 2 with a sufficient divergence angle. It has become so. The above LED5
The lighting may be controlled by the control unit 20. For example, the lighting may be performed only while the switch 4 is on.

As shown in FIG. 3, the LED 5
Out of the light Li, the light incident on the part where the skin convex part of the fingerprint part of the finger 8 is in contact with the collecting surface part 7 becomes diffused light, and the part of the skin concave part that is not in contact with the collecting surface part 7 Is totally reflected and becomes light Lo in the direction of the CCD image sensor 6. The light Lo reflected by the sampling surface 7 is guided to the imaging lens 10 through the third surface of the prism 2, passes through the imaging lens 10, and is received by the CCD image sensor 6. It is supposed to be. For this reason, it is possible to obtain an image output from the CCD image sensor 6 according to the fingerprint pattern of the skin concave portion.

By using the prism 2 in the optical system, the fingerprint pattern of the finger 8 pressed against the sampling unit 7 can be captured by the CCD image sensor 6 with sufficient contrast.

FIG. 4 is a block diagram showing an electrical configuration of the control unit 20. As shown in FIG.
Comprises a latch circuit 21, AND gates 22, 24, a delay circuit 23, an analog / digital (A / D) conversion circuit 25, a memory 26, an input interface 27, and a central processing unit (CPU) 28.

In the control unit 20, the detection output from the switch 4 is supplied to the latch circuit 21.
Serial switch 4 is turned on at time t ₁ shown in FIG: When the (high H), the latch pulse becomes high (H) from the time t ₁ as shown by in FIG. 5 (b) is formed, The signal is sent to the AND gate 22.

The AND gate 22 is supplied with a vertical synchronization signal (Vsync) of the CCD image sensor 6 together with the latch pulse. The AND gate 22 outputs the logical product signal, that is, the latch pulse during the high (H) period of the CC signal.
A gate pulse as shown in FIG. 5 (c), which becomes high (H) only during one vertical synchronization period (T) of the imaging output of the D image sensor 6 (shown in FIG. 5 (a)), is formed. do it,
The signal is supplied to the delay circuit 23.

The delay circuit 23 delays the gate pattern from the AND gate 22 by one or several vertical synchronization periods so that the fingerprint pattern recognition rate becomes the best, and FIG.
A delay pulse is formed as shown in FIG.
To supply.

The AND gate 24 is supplied with the delay pulse and the imaging output of the CCD image sensor 6 shown in FIG. 5A. The AND gate 24 forms a fingerprint pattern output serving as the image pickup output during a period when the delay pulse is high (H) as shown in FIG.

The fingerprint pattern output from the AND gate 24 is based on the A / D
The data is converted into digital data by the conversion circuit 25 and
It is sent to.

The detection output from the switch 4 is supplied to the CPU 28 via the input interface 27. The CPU 28 controls the memory 26 according to the detection output.
In addition to issuing an instruction to take in the digital data, a control for operating a personal identification of a fingerprint pattern (not shown) is performed.

According to the fingerprint data input device 1 having such a configuration, the operation of the fingerprint data input device 1 is very simple because the fingerprint pattern data is input simply by touching the finger 8 to the sampling surface portion 7.

In addition, since the input is performed when the sampling surface 7 is pressed with a predetermined force, the fingerprint pattern data can be always input in a constant state. Therefore, the risk of erroneous recognition can be reduced, and individual identification can be performed with high accuracy without performing complicated data processing.

Furthermore, since the fingerprint pattern data can be input as if the switch were pressed, the subject does not feel uncomfortable.

FIG. 6 is a diagram showing a configuration of a fingerprint data input device 60 according to a second embodiment of the present invention.

This fingerprint data input device 60 is connected to the prism 2 side of the switch 40 attached to the lowermost top of the prism 2.
An LED 50 is provided. The LED 50 provided at the lowermost portion of the prism 2 is configured so that current is supplied when the switch 4 is turned on, and the sampling surface 7 of the prism 2 is pressed with a predetermined force. When the switch 40 is turned on, the light is turned on. With such a configuration, the configuration of the optical system can be simplified, and the switch 4 can be operated without controlling the lighting of the LED 50 by the control unit 20.
The LED 50 can be lit only when 0 is on,
Unnecessary lighting can be prevented.

The other parts can be the same as those of the fingerprint data input device 1 shown in FIGS. 1 and 2, and are denoted by the same reference numerals, and description thereof will be omitted.

However, in the case of the fingerprint data input device 60,
Since the LED 50 guides the light Li to the fingerprint portion of the finger 8 from almost directly below the sampling surface portion 7, as shown in FIG. 7, the light incident on the portion of the skin concave portion that is not in contact with the sampling surface portion 7 is diffused light. Then, the light incident on the portion where the skin convex portion and the sampling surface 7 are in contact with each other is totally reflected and becomes light Lo in the direction of the CCD image sensor 6. For this reason, the CCD image sensor 6 obtains an imaging output corresponding to the fingerprint pattern of the skin convex portion.

FIG. 8 shows an example of a mouse device using the fingerprint data input device according to the present invention as an input operation switch as an application example. The mouse device 80 has two input operation switches
81 and 82, and / or both of the input operation switches 81 and 82 are constituted by the fingerprint data input device according to the present invention. By using such a mouse device 80, it is possible to input fingerprint pattern data in accordance with the pressing operation of the input operation switches 81 and 82, so that the mouse device 80 accepts only an input operation by a specific person. Can be

H. Effect of the Invention In the fingerprint data input device according to the present invention, since the fingerprint data input device is configured as described above, the data of the fingerprint pattern when pressed with a predetermined force only by pressing the finger against the sampling surface of the fingerprint pattern. Is entered.

For this reason, the operation is very simple, and in addition, since the fingerprint pattern data can be always input in a constant state, there is little possibility of erroneous recognition and the fingerprint pattern that can be personally identified with high accuracy can be obtained. It is possible to enter data.

[Brief description of the drawings]

FIG. 1 and FIG. 2 are diagrams showing a schematic configuration of a fingerprint data input device according to a first embodiment of the present invention.
FIG. 2 shows a state where a finger is pressed against the sampling surface of the fingerprint pattern, and FIG. 2 shows a state where the finger is released. FIG. 3 is a schematic diagram for explaining the reflection of light from the sampling surface of the fingerprint data input device, FIG. 4 is a block diagram showing the configuration of a control unit of the fingerprint data input device, and FIG. 5 is a time chart for explaining the operation of FIG. FIG. 6 is a diagram showing a schematic configuration of a fingerprint data input device according to a second embodiment of the present invention, and FIG. 7 is a schematic diagram for explaining light reflection on a sampling surface of the fingerprint data input device. FIG. 8 is an external perspective view showing an application example of the fingerprint data input device according to the present invention. FIG. 9 is an external perspective view for explaining a conventional fingerprint data input device. 1,60 fingerprint data input device 2 ... prism as optical member 3 ... damper as holding member 4,40 ... switch as detection means 5,50 ... LED as illumination means 6 ... photoelectric conversion CCD image sensor as a means 20 ... Control unit as a control means

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-2-191083 (JP, A) Japanese Utility Model Application No. 59-153514 (JP, U) Japanese Utility Model Application No. Sho 63-5551 (JP, U) Japanese Utility Model Application Sho 63- 61072 (JP, U) (58) Fields studied (Int. Cl. ⁶ , DB name) G06T 1/00

Claims (1)

(57) [Claims] 1. A transparent optical member having a first surface of a prism having a substantially triangular cross section in a pressing direction serving as a sampling surface of a fingerprint pattern, and elastically moving the transparent optical member in a direction perpendicular to the sampling surface. A holding member that is displaceably held; detecting means attached to a vertex position of the transparent optical member facing the sampling surface, for detecting that the sampling surface is pressed with a predetermined force; and a detection output from the detection means. Illuminating means for illuminating the sampling surface through a second surface different from the first surface of the transparent optical member, and transmitting light from the illumination means reflected by the sampling surface to the transparent optics A photoelectric conversion unit that receives light through a third surface different from the first and second surfaces of the member and performs photoelectric conversion; and outputs an output of the photoelectric conversion unit according to a detection output of the detection unit to a fingerprint pattern. data Fingerprint data input device comprising a control means for performing control to input to.