KR20190083713A - Slim Type Digital Doorlock having Fingerprint Recognition Module - Google Patents

Abstract

The present invention relates to a slim-type digital door lock having a fingerprint recognition module, which is able to make a slim design of an external unit and to realize a variety of compact designs at the same time. To this end, according to the present invention, the slim-type digital door lock comprises: an external unit with an authentication means installed for password or fingerprint or the like; an internal unit which, when a variety of authentication data entered by the external unit are the same as the data pre-saved in a memory, drives a mortise by a control by a micro control unit to make a dead bolt retreat; the fingerprint recognition module built in the external unit of the digital door lock; a fingerprint recognition sensor fixated on and engaged with a rear surface of a flip unit; and the micro control unit accessed by an analog output line of the fingerprint recognition sensor fixated on the rear surface of the flip unit. Accordingly, the present invention is able to drastically reduce the thickness of the external unit, remove a limitation on the position of installing the fingerprint recognition sensor, to not need to have a long length, to promote diversification of design, to allow the flip unit to be bent back by an optimized angle for fingerprint recognition, and to remarkably improve even a fingerprint recognition rate.

Description

[0001] The present invention relates to a slim digital door lock having a fingerprint recognition module,

The present invention relates to a slim digital door lock having a fingerprint recognition module in which a fingerprint recognition means is incorporated in a digital door lock to control trespassing in various businesses or homes.

As is known, in recent years, in order to improve the security of a digital door lock, the spread of a digital door lock having a fingerprint recognition module is spreading.

Such a fingerprint recognition module is liable to be exposed to an external person and the fingerprint recognition section may be contaminated or damaged. Therefore, a cover for protection is required, and the cover is opened only when necessary for fingerprint recognition.

Such a representative example can be seen in Korean Patent Laid-Open Publication No. 10-2014-0136717 (entitled: Fingerprint Identification Device Switching Device; hereinafter referred to as 'Reference Invention 1'). As shown in FIG. 1, ) A fingerprint recognition scanner 500 is installed inside and a rail 300 is formed on both sides of the inside opened for rotation of the cover member 200. In a standby state, the front surface of the housing 100 is closed by the spring 600, The lower roller of the cover member 200 moves on the rail 300 extending in a curved shape along the backside from the inside of the housing 100 to be rotated in the closed state shown in FIG. 2, the fingerprint scanner 500 can scan a fingerprint of a finger that is pushed by the fingerprint scanner 500.

Therefore, in this reference 1, since the cover member 200 is required to have a thickness enough to push the fingerprint of the finger by a necessary length for recognition, and a depth corresponding to the thickness of the cover member 200 and the housing 100, There is a problem in that the thickness of the door lock is inevitably increased. In order to perform the fingerprint recognition by the fingerprint recognition scanner 500, the finger must be pushed upward while pushing up.

In addition, a digital door lock in which a fingerprint recognition operation is realized by a user pushing up a cover covering the fingerprint recognition module is disclosed in Korean Patent Registration No. 10-174409 (entitled "Digital Door Lock Out Body" 3, a cover 12 for protecting the fingerprint recognition module 11 is provided on the upper part of the fingerprint recognition module 11, And the cover 11 is moved upward by the finger force of the door lock user in the longitudinal direction of the digital door lock 10 and moved to the upper portion of the original fingerprint recognition module 11 by the restoring force of the spring 13 do.

In this way, the user of the digital door lock 10 contacts his or her finger under the cover 12 for fingerprint recognition and pushes the finger upward to expose the fingerprint recognition module 11, After touching the fingerprint, release the finger bottom from the fingerprint recognition surface. In this case, the cover 12 moved upward in the longitudinal direction of the digital door lock 10 is returned to the original position by the restoring force of the spring 13, so that the fingerprint recognition module 11 is protected from external exposure.

However, since the fingerprint recognition module 11 must be positioned on the upper surface of the digital door lock 10 so that there is no inconvenience that the wrist is bent excessively for the convenience of the user to contact the fingerprint sensor on the surface of the fingerprint sensor, It is necessary to move the cover 12 in a direction perpendicular to the length direction of the digital door lock 10 so that the fingerprint recognition module 11 The length of the upper portion of the digital door lock 10 must be extended to secure a space for accommodating the digital door lock 10. Accordingly, there arises a problem that the length of the outer door of the digital door lock becomes long.

1. Korean Patent Laid-Open No. 10-2014-0136717 (entitled: Fingerprint Identification Device Switching Device) 2. Korean Patent Registration No. 10-174409 (title of invention: out door of digital door lock)

It is an object of the present invention to provide a fingerprint recognition module in which a fingerprint recognition module is built inside a flip part, but the thickness of the digital door lock is increased as in the above-mentioned reference 1, the length of the digital door lock is made longer, The present invention provides a slim digital door lock having a fingerprint recognition module for slimming the outer design of the digital door lock and realizing various designs.

According to an aspect of the present invention, there is provided a digital door lock in which, when authentication data input to the authentication means is authenticated, the micro-controller unit controls the actuator to unlock the digital door lock , A slim digital door lock is proposed in which a fingerprint recognition sensor is integrally fixed to the back face of the flip portion of the authentication means and the unlocking by the actuator is determined by the authentication data of the fingerprint recognition sensor fixed to the back face of the flip portion.

Accordingly, since the fingertip entry space of the conventional digital door lock having the fingerprint recognition sensor is unnecessary, the present invention can dramatically reduce the thickness of the external device, And it is possible to diversify the design by eliminating the need to lengthen the length, and it is possible to facilitate the use by eliminating the inconvenience that the finger is bent or pushed into the narrow space for fingerprint recognition, Since the flip section can be turned at an angle, the fingerprint recognition rate can be remarkably improved.

1 is an explanatory view showing a closed state of a flip portion of a housing for fingerprint recognition applied to a conventional fingerprint recognizer opening / closing device.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a fingerprint reader and a fingerprint reader.
FIG. 3 is a perspective view showing an example in which a fingerprint recognition module is installed above an outbody of a conventional digital door lock. FIG.
4 is a block diagram showing an electrical configuration of a digital door lock.
FIG. 5 is a perspective view of the outside of a standby state in which the fingerprint recognition sensor of the present invention is concealed. FIG.
6 is a perspective view of an outer unit according to an embodiment of the present invention in which the fingerprint recognition sensor is exposed;
7 is a plan view of an outer unit according to an embodiment of the present invention in which the flip unit is opened.
8 is a side view of the outer unit according to an embodiment of the present invention in which the flip unit is opened.
9 is a perspective view showing an outer base PCB in a state in which a flip portion is opened in another embodiment of the present invention.
10 is a perspective view showing an outer unit in which the flip portion is opened in another embodiment of the present invention.
11 is a side view showing an outer gear with the flip portion open in another embodiment of the present invention.
12 is an external perspective view showing an example in which a rotary damper is installed on a rotary shaft of a flip part according to another embodiment of the present invention.
13 is a perspective view showing an example in which a capacitance sensing antenna is installed outside the flip portion of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 4 is a block diagram showing the electrical configuration of the digital door lock. As can be seen from the above description, the present invention can be applied to an external device 100 of a digital door lock in which a touch pad is installed and various authentication data inputted by the external device 100 or the internal device 300, A lock hole 203 made of a dead bolt or a latch bolt is operated by various actuators 202 such as a motor or a solenoid under the control of the micro control unit 200,

The fingerprint recognition sensor 101 is integrally fixed to the back face of the flip part 103 of the fingerprint recognition module 111 and the authentication data of the fingerprint recognition sensor 101 fixed on the back face of the flip part 103, (202) is operated to determine the unlocking by the locking mechanism (203).

5 to 7, a fingerprint recognition sensor 101 is provided on the outer door 100 of the digital door lock, and the fingerprint recognition sensor 101 is connected to the flip- And the locking mechanism 203 of the motor 201 is locked by the control of the microcontrol unit 200 according to the output of the fingerprint recognition sensor 101 fixed to the back surface of the flip part 103 And is provided with a knob 102 at the upper end of the flip portion 103. [

The flip part receiving recessed part 108 formed on one side of the digital door lock external device 100 and the flip part 103 as the rotating shaft 107 is installed on the sidewall of the flip part receiving recessed part 108, The back surface is exposed or standing so that the back surface of the flip part 103 is concealed and the fingerprint recognition sensor 101 is mounted on the back surface of the flip part 103. [

5, when the user rotates the knob 102 at the upper end of the flip portion 103 in the operation wait state in which the flip portion 103 is erected and the flip portion receiving recess portion 108 is closed, The flip portion 103 is opened horizontally while being opened as shown in Figs. 6 and 7. The fingerprint recognition sensor 101 thus buried in the back surface of the flip part 103 is exposed. As shown in FIG. 8, the fingerprint recognition sensor 101 thus exposed pushes or pushes the user's finger The user can easily touch the fingerprint of the fingerprint without any uncomfortable operation such as raising the fingerprint.

In addition, since the fingerprint and the surface of the fingerprint recognition sensor 101 can be closely contacted with each other on a horizontal plane, the present invention can greatly improve the fingerprint recognition rate.

The rotation angle of the flip part 103 in this embodiment is set such that the end of the lower end of the flip part 103 when the flip part 103 is turned up and turned downward in the state where the flip part 103 stands up is attached to the outer base PCB 105 of the digital door lock The stopper 104 is brought into contact with the protruded stopper 104 to stop the flip 103 in a state in which the flip 103 can no longer rotate in the counterclockwise direction.

The fingerprint data is transmitted to the microcontrol unit 200 via the A / D converter 204 when the fingerprint is brought into contact with the fingerprint recognition sensor 101 in this manner, and only when the fingerprint data matches the stored fingerprint, The actuator 202 of the motis 201 moves the lock opening 203 to open the door by driving the door 205. The user confirms that the door is opened and then rotates the flip portion 103 to the standing state .

In this embodiment, although the user has performed the operation of rotating the flip part 103, it may be performed in the form shown in Figs. 9 to 11 for the convenience of the user. That is, in this embodiment, the bracket 106 is installed upright on the outer base PCB 105 of the digital door lock, and the rotating shaft 107 at the lower end of the flip part 103 is fixed to the bracket 106, The driven gear 402 is engaged with the driven gear 401 which is connected to the speed reducer module 400 in which the motor and the gear are built and the driven gear 402 is fixed to one side of the rotating shaft 107 of the part 103, In particular, in the present invention, the fingerprint recognition sensor 101 is installed inside the flip part 103.

In this embodiment of the present invention, when the user touches the touch pad 206 while the flip part 103 is standing up, the micro control unit 200 recognizes the finger and touches the speed reducer module 400 The power is supplied to the motor to rotate the driving gear 401 and the driven gear 402 so that the rotating shaft 107 of the flip portion 103 fixed to the driven gear 402 rotates, Lt; / RTI > 10 and 11, the flip portion 103 disposed below the digital door lock is opened and the finger is recognized in the most comfortable position as the fingerprint recognition sensor 101 The fingerprint sensor 101 can be brought into contact with the sensor 101. When the flip part 103 is provided below the digital door lock, The fingerprint recognition sensor 101 can be installed at the most comfortable angle.

At this time, if the fingerprint recognition data is applied to the microcontrol unit 200 via the A / D converter 204, the data is compared with the fingerprint recognition data stored in the memory, The fingerprint recognition sensor 101 detects the presence or absence of data by releasing the fingerprint recognition sensor 101 after the user confirms the door opening. The microcomputer unit 200 supplies power of the opposite polarity to the motor of the speed reducer module 400 to rotate the driving gear 401 and the driven gear 402 in the direction opposite to the previous direction, The rotating shaft 107 of the flip part 103 fixed to the gear 402 is rotated in the reverse direction so that the flip part 103 stands up as shown in Fig.

When the fingerprint recognition sensor 101 is brought into contact with the finger, the microcontroller 200 notifies the fingerprint recognition unit 101 that the finger is to be removed from the fingerprint sensor 101, 101 is turned off and the microcomputer unit 200 for determining the presence or absence of data of the fingerprint recognition sensor 101 supplies power to the motor of the speed reducer module 400 whose polarity is opposite to the previous one, The rotation shaft 401 of the flip portion 103 fixed to the driven gear 402 rotates in the opposite direction and the driven gear 402 rotates in the direction opposite to the previous rotation, And returns to the state before the operation.

In the present invention, the flip portion 103 is opened and closed by the manual operation in the embodiment shown in FIGS. 5 to 8, but the flip portion 103 of the flip portion 103 according to this embodiment, And a rotary damper 500 (ROTARY DAMPER) filled with oil is installed inside the outer shaft 100 of the digital door lock and extends to the end of the pivot shaft 107, When the shaft 110 of the rotary damper 500 connected to the rotary shaft 107 rotates during the rotation of the rotary shaft 107 and the oil moves through the orifice in the rotary damper 500, So that it can be opened at an appropriate speed and closed at a proper speed. The rotary damper 500, which is applicable in such a case, has a bi-directional function. The rotary damper 500 can be operated both when opened or closed, or when the rotary damper 500 has a unidirectional function. Closing at a closing speed. An example in which such a rotary damper 500 is installed is shown in Fig.

In this case, the rotary damper 500 may be designed to optimize the opening or closing speed by adjusting the diameter of the orifice received therein to set the size of the resistance, or may implement a similar function using an air damper in addition to the rotary damper Its illustration is omitted.

In addition, the present invention has been described with respect to the embodiment in which the user touches the touch pad 206 to open the flip part 103 in the embodiments shown in FIGS. 9 to 11. However, as shown in FIG. 13, The user can recognize the touch of the touch on the outer side of the flip part 103 by showing the symbol, figure, and character indicating the touch of the hand on the outside of the flip part 103 with the built-in electrostatic capacity sensing antenna 600 outside the flip part 103 The microcontrol unit 200 senses the capacitance of the capacitive sensing antenna 600 and supplies electric power to the motor of the speed reducer module 400 so that the driving gear 401 and the driven gear 402 The rotation of the rotary shaft 107 of the flip part 103 fixed to the driven gear 402 may cause the flip part 103 to be opened as shown in Fig.

In the present invention, the security level can be increased by using both the authentication method using the fingerprint recognition sensor 101 and the authentication method using the touch pad 206. In this case, in particular, The micro control unit 200 drives the driver 205 to move the actuator 202 of the motis 201 to the locking hole 203 only when the normal password input by the touch pad 206 succeeds. So that the door can be opened.

In another embodiment, when the authentication is completed by inputting the normal password by the touch pad 206 in the embodiment shown in FIGS. 9 to 12, the micro control unit 200 supplies power to the motor of the speed reducer module 400 So that the driving gear 401 and the driven gear 402 are rotated so that the rotating shaft 107 of the flip portion 103 fixed to the driven gear 402 is rotated so that the flip portion 103 is opened as shown in FIG. The authentication by the fingerprint is performed as in the above embodiment so that the duplicate authentication is performed by the password and the fingerprint, thereby increasing the security level.

In the present invention, the opening angle of the flip part 103 in the present invention is different depending on the installation height of the digital door lock, the position of the flip part 103 in the digital door lock, and the physical characteristics of the user, Is preferably in the angle range of 90 to 130 degrees with respect to the vertical plane of the digital door lock.

In addition, in the above description and drawings of the present invention, a flexible flat cable for connection between the fingerprint sensor 101 and the outer PCB 105 is used, and this is a widely used element, .

While the present invention has been described in connection with what is presently considered to be preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

100: outer side of digital door lock 101: fingerprint recognition sensor 102: knob
103: Flip part 104: Stopper 105: Outer board PCB
106: bracket 107: pivot 108: flip portion receiving recess
109: slope 110: shaft 111: fingerprint recognition module
200: a microcontrol unit 201; Mortis 202: Actuator
203: locking mechanism 204: A / D converter 205; driver
206: Touchpad 300: Inside of digital door lock
400: Reduction gear module 401: Spur gear 402: Slave gear
500: Rotary damper 600: Capacitive sensing antenna

Claims (8)

A digital door lock which is unlocked by driving an actuator under the control of a micro control unit when authentication data inputted to the fingerprint recognition module is authenticated, comprising: a fingerprint recognition module provided with a fingerprint recognition sensor;
The fingerprint recognition sensor is integrally fixed to the back face of the flip portion of the fingerprint recognition module and the actuator is operated by the authentication data of the fingerprint recognition sensor fixed on the back face of the flip portion to determine the unlocking by the locking hole. A digital door lock having a fingerprint recognition module. The method according to claim 1,
Wherein a flip storage recess is formed in one side of the digital door lock and the flip is pivoted in the flip storage recess in the digital door lock and a knob and a pivot are formed respectively on the upper and lower sides of the flip, One slim digital door lock. 3. The method of claim 2,
Wherein the flip section is opened or closed by a rotational force of a motor incorporated in the speed reducer module, the speed reducer module including a motor being connected to a rotation shaft formed below the flip section and controlled by a micro control unit Slim digital door lock. The method according to claim 1,
Wherein the flip unit is opened or closed by a microcontrol unit for recognizing a touch of a touch pad provided on the digital door lock. The method according to claim 1,
Wherein the flip unit includes a capacitance sensing antenna and is opened or closed by a micro control unit when the flip unit is touched. The method according to claim 1,
The flip unit is operated by the motor of the speed reducer after the password is approved by the micro control unit after the touch of the touch pad provided in the digital door lock and the first authentication is completed so that the flip unit is opened and the second authentication by the fingerprint recognition sensor is performed Wherein the fingerprint recognition module comprises a fingerprint recognition module. The method according to claim 1,
Wherein a rotary damper is provided on a rotary shaft formed below the flip portion so that the opening and closing speed of the flip portion is limited. The method according to claim 1,
Wherein the opening angle of the flip portion is in a range of 90 to 130 degrees with respect to a vertical plane of the digital door lock.

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