KR20000058684A - A touch type mouse - Google Patents

Abstract

PURPOSE: A touch type mouse is provided for obtaining a certain convenience of a mouse by transmitting an electrical click signal by a human body detection unit in the case that a clock portion is softly touched by a finger in a state a mouse cursor is set to a certain pointer. CONSTITUTION: A human body detection unit(30) is installed for detecting a contact of a human body. A gain controller(37) is provided for controlling an output gain of the human body detection unit(30). A second amplifier circuit(38) amplifies an output of the human body detection unit(30). A DC/DC converter(39) supplies a driving voltage of the human body detection unit(30) and a reference voltage of the gain control. The human body detection unit(40) includes a sensing condenser(31) which is installed on the lower surface of the first and second touch units(21, 22) and is capable of generating a voltage based on a variation in a static capacity in the case that a finger is touched. A reference condenser(32) is in parallel connected with the other terminal of the sensing condenser(31) for generating a constant voltage proportional to the static capacity value.

Description

Touch type mouse {A touch type mouse}

The present invention relates to a touch-type mouse, and more particularly, an electric click signal transmitted by the human body detection unit to a computer when a user touches a click part lightly with a finger while designating a mouse cursor on a desired pointer. By providing the convenience of using the mouse, it minimizes the muscle fatigue of the user according to the click, increases the precision by the stable operation of the electronic circuit when clicking, eliminates the occurrence of errors, and extends the life of the mouse. Type mouse.

In general, a mouse is a device for indicating a position on a display screen in a computer system. The mouse is moved by rotating the ball by moving the mouse on a plane, and the amount of movement of the mouse cursor is proportional to the number of revolutions of the two-dimensional ball.

1A is a perspective view of a conventional mouse, and a handle portion 2 and a click portion 3 are provided on an upper side of the body 1, and the click portion 3 is a cursor. There is provided a first click button 4 for executing the menu in which is located, and a second click button 6 for displaying the submenu and selecting each item of the submenu.

Another type of wheel mouse includes a wheel mouse provided with a wheel 5 for moving the screen up and down between the first and second click buttons 4 and 6.

FIG. 1B is a block diagram of a conventional mouse, in which a mechanical structure installed below the first and second click buttons 4 and 6 is pressed when the first and second click buttons 4 and 6 are pressed. Click part 3 of 1st, 2nd switch 4a and 6a, Cursor moving part 8 which moves a mouse 10 itself in planar plane, and rotates a ball so that a cursor may be positioned to a designated pointer, and the said click part (3) and a signal processing unit 7 for processing the signal output from the cursor moving unit 8 and transmitting it to the computer PC.

The conventional mouse constructed as described above, when the mouse 10 itself is moved in a plane, rotates a ball installed inside the cursor moving unit 8 to position the cursor at a desired pointer, thereby using the first click button 4. Alternatively, when the second click button 6 is pressed (clicked or double clicked), the first and second switches 4a having a mechanical structure installed under the first and second click buttons 4 and 6 ( The contact point resulting from the operation of 6a) is connected, and the signals output from the cursor shifter 8 and the first and second switches 4a and 6a are stabilized by the signal processor 7 and clicked into the computer PC. It is supposed to transmit a signal.

In the conventional mouse as described above, the first and second click buttons must be operated at a high speed with a finger, so that the user's arm muscles are overwhelmed and muscle paralysis occurs when used for a long time. It is caused by social problems. In addition, the switch that generates the click signal according to the operation of the first and second click buttons has a mechanical structure, which not only shortens the service life but also causes a large number of problems such as a high error occurrence rate due to a mechanical contact failure, thereby lowering reliability. will be.

The present invention uses a human body sensing unit for outputting a click signal by detecting a voltage change caused by the change in capacitance of the capacitor when lightly touched with a finger to all kinds of mouse click unit including a wheel mouse, and to the output of the human body sensing unit After removing the noise and high frequency components, adjust the gain and send the click signal to the computer. When the mouse is lightly touched with the finger while the mouse cursor is assigned to the desired pointer, the click is made. Not only provide convenience, but also minimize the fatigue of wrist and arm muscles of the user according to the click, and also increase the precision by stable operation of the electronic circuit when clicked to eliminate the occurrence of errors and to extend the service life of the mouse. One thing is technical problem.

The touch mouse of the present invention has a handle portion and a click portion formed on an upper side of a body, and in a conventional mouse provided with a wheel for moving the screen up and down in the center of the click portion, a menu in which a cursor is located on the surface of one click portion of the wheel A first touch portion for clicking for execution of a second touch portion is formed; The touch signal is generated by the click signal generation unit when the first and second touch units are touched by the finger surface.

Figure 1a is a perspective view of a conventional mouse.

1B is an internal block diagram of a conventional mouse.

Figure 2a is a perspective view of the mouse according to the present invention.

2B is an internal block diagram of a mouse in accordance with the present invention.

3 is a detailed circuit diagram of a mouse click signal generation unit according to the present invention.

<Explanation of symbols for main parts of drawing>

1 body 2 handle 3 click portion

5 wheel 21 first touch portion 22 second touch portion

23, 24: click signal generation unit 30: human body detection unit 31: sensing capacitor

32: reference capacitor 33: comparator 34: delay circuit

35 low pass filter 36 first amplifier circuit 37 gain control unit

38 second amplifier circuit 39 DC / DC converter PC: computer

Hereinafter, the operation concept of the touch-type mouse of the present invention will be described with reference to FIGS. 2A and 2B.

Figure 2a is an external perspective view of the mouse 10 according to the present invention, the upper portion of the body 1 is provided with a handle portion 2 and the click portion (3), the click portion 3 of the menu is located cursor A first touch unit 21 for clicking for execution and a display of a sub menu and for selecting each item of the sub menu are provided. A second touch unit 22 for clicking for executing is formed. A wheel 5 for moving the screen up and down is provided between the second touch units 21 and 22.

2B is a block diagram of a mouse according to the present invention, which is installed below the first and second touch units 21 and 22 and generates an electric click signal due to a change in capacitance of a capacitor when lightly touched with a finger. A clicker (3) comprising first and second click signal generators (23) and (24) to be outputted, and a cursor mover for moving the mouse (10) itself on a plane to rotate the ball so that the cursor is positioned at the designated pointer. (8) and a signal processing section 7 for processing the signals output from the clicking section 3 and the cursor moving section 8 and transmitting them to a computer PC.

2A and 2B, the basic operation concept of the touch mouse of the present invention will be described. First, the mouse 10 itself is moved on a plane to rotate a ball installed in the cursor moving unit 8 to move the cursor to a desired pointer. If the finger is lightly touched on the first and second touch parts 21 and 22 in the positioned state, the first and second click signals provided below the first and second touch parts 21 and 22 are generated. The unit 23 or 24 senses a voltage change due to a change in capacitance of the capacitor and outputs a "high" or "low" signal, removes noise and high frequency components included in the output, and adjusts gain. After the rough, the click signal is transmitted to the computer.

3 is a detailed circuit diagram of the click signal generator 23 and 24 according to the present invention. The human body detector 30 detects contact of a human body and generates a predetermined signal, and the human body detector 30 Gain adjusting unit 37 for adjusting the output gain of the amplifier, a second amplifying circuit 38 for amplifying the output of the human body sensing unit 30, the human body sensing unit 30 and the second amplifying circuit 38) and a DC / DC converter 39 for supplying a reference voltage for adjusting the driving power supply and gain.

Here, the human body sensing unit 40 has a sensing capacitor 31 installed at the bottom of the first and second touch units 21 and 22 to generate a voltage due to the change of capacitance when the finger surface of the human body is touched. The other end of the sensing capacitor 31 is connected in parallel with a reference capacitor 32 for generating a constant voltage in proportion to the capacitance value.

In addition, a comparator 33 for comparing a reference voltage and outputting a control signal of a predetermined level is connected to the output terminals of the sensing capacitor 31 and the reference capacitor 32, and the comparator 33 is connected to the other end of the comparator 33. A delay circuit 34 for delaying the output signal of the predetermined time and feeding back to the reference voltage is connected.

A low pass filter 35 for removing noise and high frequency included in an output signal is connected to an output terminal of the comparator 33, and a first amplifier circuit 36 for adjusting and outputting an output terminal of the low pass filter 35. ) Is connected and configured.

In addition, one end of the first amplifying circuit 36 of the human body sensing unit 30 is composed of resistors R2 and R3 and variable resistors VR1 and VR2 for gain control of the first amplifying circuit 36. A gain control unit 37 is connected, and on the output side of the first amplifying circuit 36, a second amplifying circuit for amplifying the signal to a predetermined level and applying it to the signal processing unit 7 for transmitting to a computer PC ( 38 is connected, and the output terminal of the DC / DC converter 39 for supplying stable driving power is connected to the human body sensing unit 30, the gain control unit 37, and the second amplifying circuit 38.

Referring to the operation of the click signal generator 23, 24 configured as described above is as follows.

First, since the Vcc cannot drive a chip operating from 8.5V ^to 14.5V independently on the mouse 10, the human body detecting unit 30 and the amplifying circuit using 5V supplied from a computer PC. The DC / DC converter 39 is used to obtain the output power in the range of 10V ^to 14V, which is the driving power supply of (37).

That is, when the computer PC and the mouse 10 are connected to each other as a connector, 5V power is supplied from the computer PC, and this power is applied to the DC / DC converter 39 ^to supply power in the range of 10V ^to 14V. The power is supplied to one packaged human body sensing unit 30, the gain control unit 37, and the amplifying circuit 38, respectively, to make an operational standby state.

In addition, when driving power is supplied from the DC / DC converter 39 to the human body sensing unit 30, the comparator 33 is applied to the one end of the comparator 33 by the reference capacitor 32. The input and output ends of the input will maintain a stable state at all times.

In this state, when lightly touching the first touch unit 21 or the second touch unit 22 of the click unit 3 of the mouse 10 illustrated in FIGS. 2A and 2B with the finger, the human body sensing unit 30 is inside. Charges are accumulated along the surface of the finger to increase the capacitance of the sensing capacitor 31, and since one side of the first and second touch units 21 and 22 is connected to the ground, the first and second touches eventually. The voltage inside the units 21 and 22 is also increased, and when the voltage of the sensing capacitor 31 is greater than the voltage of the reference capacitor 32, it affects the previous stable state.

Therefore, when the voltage of the sensing capacitor 31 is greater than the voltage of the reference capacitor 32, a touch signal of "high" level is output from the comparator 33, and this signal is transmitted to the other side of the comparator 33 through the delay circuit 34. While the feedback signal is inputted to the terminal, the change in voltage due to the change in capacitance of the sensing capacitor 31 is a signal in the baseband, and is passed through the low pass filter 35 to obtain it. The noise and the high frequency are removed to make a stable signal, which is then transmitted to the first amplifying circuit 36 to amplify to a predetermined level and output.

Here, the gain adjustment of the first amplifier circuit 36 is made by the resistors R2 and R3 and the variable resistors VR1 and VR2 of the gain control unit 37. That is, since one terminal of the resistor R2 is connected to the output terminal of the DC / DC converter 39, the voltage division value according to the resistance ratio of the resistor R2 and the variable resistor VR1 is connected to one terminal of the resistor R3. The gain of the first amplification circuit 36 can be adjusted by changing the voltage applied to the resistor R3 by adjusting the variable resistor VR1, and the resistor R3 is suddenly applied to the human body sensing unit 30. It is a protective resistor that prevents an undesired current change, and adjusts the voltage difference between the first amplifying circuit 36 and the second amplifying circuit 38 in the rear stage by adjusting the variable resistor VR2.

Therefore, the click signal output from the first amplifying circuit 36 is amplified and output again by the second amplifying circuit 38 to a predetermined level, and the click signal is transmitted to the computer PC through the signal processing unit 7 of the mouse 10. The basic voltage value of the second amplifier circuit 38 is obtained through the resistor R4, and the amplification gain is adjusted by the variable resistor VR3 having one terminal connected to the ground.

On the other hand, when the surface of the finger is separated from the first touch unit 21 or the second touch unit 22 after the completion of the click, the capacitance of the sensing capacitor 31, which is the human body sensing unit 30, is significantly reduced. The voltage inside the second touch units 21 and 22 also decreases, so that only the reference voltage supplied from the reference capacitor 32 is applied to one end of the comparator 33.

Therefore, the input voltage through the delay circuit 34 and the voltage input from the sensing capacitor 31 and the reference capacitor 32 are compared in the comparator 33 to maintain the output if the voltages of both ends are the same, Since the surface of the finger is separated from the first touch unit 21 or the second touch unit 22, there is no voltage of the sensing capacitor 31 so that the voltages at both ends of the comparator 33 are different from each other. By outputting a low level signal, the output of the first amplifying circuit 36, which is the final output terminal of the human body sensing unit 30, does not appear and thus does not transmit the click signal to the computer PC.

By the above-described repetitive operation, the click signal is transmitted to the computer PC even by lightly touching the first and second touch units 21 and 23, which are the click units 3 of the mouse 10, with a finger. will be.

As described above, the present invention provides a human body detecting unit for generating a click signal by sensing a touch of a human body, an amplifying circuit for amplifying the output of the human body detecting unit, a driving power and gain adjustment for the human body detecting unit and the amplifying circuit. Provides a touch type mouse consisting of a DC / DC converter that supplies a reference voltage and the like, and its control circuit so that when a mouse is lightly touched with a finger while the mouse cursor is assigned to a desired pointer, a click is made to provide convenience for use Of course, the fatigue of the wrist and arm muscles of the user according to the click as well as to minimize the occurrence of errors by increasing the precision by the stable operation of the electronic circuit when clicked, it is possible to extend the service life of the mouse.

Claims (3)

Cursor moving portion 8 for moving the mouse on a plane to position the cursor at a designated pointer, a click portion 3 formed on the handle portion 2 above the body 1, the click portion 3 and the cursor moving portion ( In the ordinary mouse composed of a signal processing section 7 for processing a signal output from 8) and transmitting it to a computer (PC), A first touch unit 21 is formed to click to execute a menu where a cursor is located on one surface of the click unit 3, On the other surface of the click section 3, a second touch section 22 is formed for displaying a sub menu and clicking to select and execute each item of the sub menu. When the first and second touch parts 21 and 22 are touched by the surface of the finger, the click type signal generator 23 and 24 transmit the click signal to the computer PC. . The method of claim 1, wherein the click signal generation unit (23) (24), When the first and second touch units 21 and 22 are momentarily touched, a voltage change due to a change in capacitance of a capacitor is sensed and a predetermined control signal is output, and noise included in the signal is removed and amplified to a predetermined level. And to detect and output the human body 30, A gain adjusting unit 37 for adjusting the gain of the output signal of the human body detecting unit 30, A second amplifying circuit 38 for amplifying the output of the human body detecting unit 30 and transmitting a click signal to the signal processing unit 7; Touch type mouse, characterized in that consisting of a DC / DC converter (39) for supplying a drive voltage and the reference voltage for gain adjustment of the human body sensing unit 30 and the second amplification circuit (38). The method of claim 2, wherein the human body sensing unit 30, A sensing capacitor 31 installed on the bottom of the first and second touch units 21 and 22 to generate a voltage due to a change in capacitance when a finger surface of the human body is touched; A reference capacitor 32 connected in parallel with the sensing capacitor 31 to generate a voltage proportional to a reference capacitance value; A comparator 33 for outputting a control signal of a predetermined level by comparing the output of the sensing capacitor 31 and the reference capacitor 32 with a reference voltage; A delay circuit 34 for delaying the output signal of the comparator 33 for a predetermined time and applying it as a reference voltage of the comparator 33; A low pass filter 35 for removing noise and high frequencies included in the output signal of the comparator 33; And a first amplifying circuit (36) for gain-adjusting and outputting the output signal of the low pass filter (35).