KR20100051396A - Touch sensitivity compensation method of digital door lock - Google Patents

Abstract

PURPOSE: A touch sensitivity compensating method of a digital door lock is provided to enable a user to use conveniently by preventing malfunctioning by adjusting the touch sensitivity with an appropriate value for environment or user. CONSTITUTION: A user touches a touch electrode(101) corresponding to beginning. The user touches a plurality of touch electrodes corresponding to password. The user touches the predefined number, and converts the present mode into the touch sensitivity setup mode. The user touches one among a plurality of touch electrodes corresponding to the sensitivity level.

Description

Touch Sensitivity Compensation Method of Digital Door Lock}

The present invention relates to a method for adjusting the touch sensitivity of a digital door lock, and in particular, in a touch door digital door lock that is installed and used at a door in a home or a business, a user can optimally select a touch sensitivity for touching a finger for a password or an operation. It relates to a touch sensitivity correction method of the digital door lock to be set to the state of.

As is well known, a touch button is recently used as a means for inputting a password of a digital door lock. These touch buttons are not only imparting waterproof and moisture proof performance to the digital door lock, but also have a trend of increasing demand for beautiful appearance by allowing the buttons to be in a high gloss state as a whole without being exposed to the outside. A representative example of such a touch button-type digital door lock can be seen by the "digital door lock keypad having a waterproof and moisture proof structure" by applying a touch screen (utility model registration No. 0433819; hereafter referred to as 'quoting design'). Looking at the structure thereof, as shown in Figure 1, the touch sensor module 21 formed of a transparent material on the front is installed on the keypad unit 11 of the digital door lock 10, the keypad embedded in the case 20, The touch panel 22 is attached to the outer surface so that numerals and letters can be displayed on the surface.

This means that when the user's finger touches the touch panel 22, the capacitance value is changed to generate a predetermined output by the touch sensor module 21, and the digital door lock 10 is opened and closed by the MCU connected thereto.

This quote does not apply to the keypad part of the digital door lock having a mechanical operation structure that is vulnerable to waterproof and moisture proof, but by applying a sealed keypad with a built-in touch sensor module can fundamentally block water or moisture from coming in from the outside. It became.

On the other hand, the touch sensor of the digital door lock is shipped with all the parameters related to operation such as the minimum touch holding time recognized by its sensitivity and operation, and is fixed by the digital door lock manufacturer. If touch occurs, the operation may not be recognized, and if the sensitivity is increased, the human body may recognize the touch even when the human body is not touched by the touch panel, thereby causing a malfunction.

In addition, since the touch detection sensor detects the touch of the human body by changing the dielectric constant between the touch panel and the electrode, the difference in permittivity is very different for each constitution of the human body. If the humidity is high, the dielectric constant is high, so the sensitivity is high, and the humidity is low, the dielectric constant is low, so the sensitivity is low. There is a problem that the sensitivity setting is virtually impossible.

An object of the present invention is to solve the problems of the digital door lock of the digital door lock touch sensor is to allow the user to easily adjust the sensitivity of the touch sensor to a number of users who are different in the constitution used in different situations. A touch sensitivity correction method is provided.

The present invention connects the AIC (AUTOMATIC IMPEDANCE CALIBRATION) control unit of the touch sensor to the MCU of the digital door lock, and connects the touch electrodes assigned to numbers and symbols to the input terminal of the touch sensor to the password. When the corresponding touch electrode is touched, the output of the touch sensor that senses the change in capacitance is supplied to the MCU to control the driving circuit from the MCU so that the dead bolt is retracted by rotating the driving motor to release the door. After entering a password, if the user has operated one or more of the specified buttons, switching to the touch sensitivity setting mode, displaying a number for designating a plurality of sensitivity levels for sensitivity specification in the setting mode, and displaying any of the displayed numbers. If you select and touch one, it is stored in the memory corresponding to the numerical value in the AIC control unit. The propose on the basis of the touch sensitivity values defined in the table and determining whether the touch, a digital door lock, characterized in that it is determined to forward the output to the MCU touch sensitivity correcting method.

In this way, the present invention can arbitrarily adjust the touch sensitivity to a value most suitable for the temperature, humidity of the place where the digital door lock is installed, as well as the limited physical characteristics of the user, thereby preventing malfunction and of course, inputting a password correctly during user operation. Since it is possible to provide convenience of operation, there is a useful effect that can satisfy the preferences of users, such as a limited family that actually use the digital door lock.

Referring to the present invention in more detail with reference to the accompanying drawings as follows. The configuration of the corresponding part of the general digital door lock for implementing the touch sensitivity correction method of the digital door lock according to the present invention is shown in FIG. As can be seen from the touch-type digital door lock, the touch electrode 101 is arranged inside the touch panel 100, which is connected to the input port 201 of the touch sensing integrated circuit 200, and the touch. The light emitting diode 300 is disposed inside the printed number inside the panel 100, and the light emitting diode 300 is connected to the output port 202 of the touch sensing integrated circuit 200 described above.

In addition, the touch sensing integrated circuit 200 is connected to a buzzer, a motor driving circuit for sliding the deadlock, various sensors, and a light emitting diode for displaying an operation state, and the like to the MCU 400 for controlling overall operation. It is connected.

Therefore, in the touch-type digital door lock, when the touch electrode 101 corresponding to the password is touched, the output of the touch detection sensor that detects the change in capacitance caused by this is supplied to the MCU 400, and the motor driving circuit in the MCU 400. By controlling the drive motor is rotated, the dead bolt is moved forward, retracted to be able to open or lock the door.

The touch sensing integrated circuit 200 used in the present invention uses ATATA, Inc., ATA2508, which includes an input port 201 connected to the touch electrode 101 and a touch electrode 101 operated thereon. An output port 202 connected to a base of the light emitting diode driving transistor 301 for illuminating a corresponding number;

It is provided with an input / output port 203 such as a data output terminal connected to the MCU 400 and an AIC (AUTOMATIC IMPEDANCE CALIBRATION) input terminal for sensitivity adjustment. In this state, the touch sensitivity correction method of the digital door lock according to the present invention will be described with reference to the flowchart attached to FIG. 3.

First, when the user touches a finger on a predetermined position of the touch panel 100 at a portion where the touch electrode 101 corresponding to the start is disposed with a finger, the capacitance of the touch electrode 101 corresponding to the start increases, which is a touch detection. The output signal sensed by the integrated circuit 200 and indicating that the start terminal is touched by the touch sensing integrated circuit 200 is applied to the MCU 400 via the input / output port 203. Accordingly, the MCU 400 is switched to the password input mode, and the MCU 400 controls the touch sensing integrated circuit 200 to turn on all the light emitting diodes 300. In this state, the user sequentially touches a portion of the touch panel 100 corresponding to the numeric position emitted by the light of the light emitting diodes 300 using a finger, and then presses a designated symbol (eg, #). Since the capacitance of the touch electrode 101 corresponding to the change occurs, the touch sensing integrated circuit 200 detects this and outputs the password and the output data corresponding to “#” through the input / output port 203 to the MCU (400). ) Accordingly, the MCU 400 compares the input password data with the password data previously stored in the memory. When the passwords are the same, the touch detection is performed to determine whether a specific number (eg, “1”) is operated. The input / output port 203 of the integrated circuit 200 is monitored. As a result, when the user presses a certain number (e.g. "1"), the touch sensing integrated circuit is used to determine whether or not a predetermined number (e.g. "1", "2", "3") has been pressed. The input / output port 203 of the 200 is monitored. As a result, when the user presses a specific number (eg, "1"), the specific sensitivity data corresponding to the specific number is taken from the designated address of the pre-stored memory and output to the AIC input terminal of the touch sensing integrated circuit 200. Let's go. Accordingly, the touch sensing integrated circuit 200 adjusts the sensitivity of the touch electrode 101 to a sensitivity selected by the user by setting a capacitance value regarded as being touched by data input through the AIC terminal.

Therefore, when a certain number (such as "1") is pressed, the data corresponding to the higher sensitivity is output. When another specific number (such as "2") is pressed, the data corresponding to the middle sensitivity is output. If another specific number (e.g. "3") is pressed, the data corresponding to the low sensitivity is outputted, and only the operation of pressing a certain number (e.g. "1", "2", "3") The sensitivity of the touch electrode 101 is arbitrarily adjusted in a state where the sensitivity of the touch sensing integrated circuit 200 is high, medium or low.

In addition, in the above example, the example of limiting the specific number to three has been described. However, using more numbers as necessary, the sensitivity of the touch electrode 101 can be precisely controlled in more detailed steps.

In addition, in the above-described embodiment, a value set to a specific number (for example, "1", "2", "3") is taken from the memory and input by the AIC input terminal of the touch sensing integrated circuit 200. Although the touch recognition sensitivity of the electrode 101 is adjusted,

As another embodiment, as shown in FIG. 4, adding or subtracting a setting value corresponding to a number manipulated by the user in the sensitivity setting mode based on a touch sensitivity value defined by default in the AIC control unit of the touch sensing integrated circuit 200. And, by setting the added or subtracted value as a touch sensitivity value and determining whether or not to touch the reference, the touch recognition sensitivity of the touch electrode 101 can be adjusted.

In addition, as shown in FIG. 5, the above-described sensitivity selection methods are mixed, and as described above, the data value accessed at the corresponding address of the memory is taken by the three-step sensitivity adjustment data set by the user, and the above-described touch detection integration is performed. The touch sensitivity data of the touch sensing integrated circuit 200 is selected and touched by obtaining the touch sensitivity data by adding or subtracting the touch sensitivity value defined by default in the AIC control unit of the circuit 200 to the AIC input terminal. The touch sensitivity may be selected by using the capacitance value that is regarded as a touch in the sensing integrated circuit 200.

In addition, in the above-described steps, the data is stored, and the accessed memory may be an internal memory or an external memory built in the MCU 400.

1 is a longitudinal sectional view showing a keypad for a digital door lock having a conventional waterproof and moisture proof structure.

Figure 2 is a schematic diagram showing the electrical configuration of the digital door lock for applying the present invention.

Figure 3 is a flow chart showing a touch sensitivity correction method of the digital door lock according to the present invention.

4 and 5 is a flow chart showing a touch sensitivity correction method of the digital door lock according to the present invention in another embodiment.

* Explanation of symbols for the main parts of the drawings

DESCRIPTION OF SYMBOLS 100 Touch panel 101 Touch electrode 200 Touch integrated circuit

201: input port 202: output port 203: input / output port

300: light emitting diode 301: transistor 400: MCU

Claims (3)

Touching the touch electrode corresponding to the beginning; Touching a plurality of touch electrodes corresponding to a password; A step of touching the designated touch electrode corresponding to the completion of the password input by touching the predetermined number to convert to the touch sensitivity setting mode; Touching any one of the plurality of touch electrodes corresponding to the sensitivity level for setting the touch sensitivity, and the sensitivity of the touch sensing integrated circuit according to the sensitivity data corresponding to any one of the touched electrodes corresponding to the above-described sensitivity level And determining the touch sensitivity of the digital door lock. Touching the touch electrode corresponding to the beginning; Touching a plurality of touch electrodes corresponding to a password; Following the step of touching the designated touch electrode corresponding to the completion of the password input, touching at least one predetermined number to convert to the touch sensitivity setting mode; Touching any one of the plurality of touch electrodes corresponding to the sensitivity level for setting the touch sensitivity, and in the sensitivity setting mode described above by the user based on the touch sensitivity value defined by default in the AIC control unit of the touch sensing integrated circuit. A step of adding or subtracting a set value corresponding to the number of touches, and setting the added or decreased result as a touch sensitivity value and inputting it to the AIC input terminal of the touch sensing integrated circuit, and determining whether or not the touch is touched based on this, the touch recognition sensitivity of the electrode Touch sensitivity correction method of the digital door lock, characterized in that to be adjusted. Touching the touch electrode corresponding to the beginning; Touching a plurality of touch electrodes corresponding to a password; Following the step of touching the designated touch electrode corresponding to the completion of the password input, touching at least one predetermined number to convert to the touch sensitivity setting mode; Touching any one of the plurality of touch electrodes corresponding to the sensitivity level for setting the touch sensitivity, and taking the data value accessed at the corresponding address of the memory by the data corresponding to the touched sensitivity level, the touch sensing integration Obtaining touch sensitivity data by adding or subtracting a touch sensitivity value defined by default in the circuit's AIC control unit; And applying touch sensitivity data obtained in the above process to the AIC input terminal of the touch sensing integrated circuit so as to select the touch sensitivity value of the touch sensing integrated circuit so that the touch recognition sensitivity is adjusted.

Images