KR100364715B1 - Touch switching system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a touch switch system, and more particularly, to a touch switch device capable of preventing an electric shock caused by static electricity of a human body when a switch is touched.

The present invention provides a touch switch device comprising a means for blocking static electricity between the touch switch and the touch recognition circuit; Capacitive means intervenes as a means for blocking static electricity between the contact switch and the touch recognition circuit, and in particular, by using a printed circuit board (PCB) on which the switch structure is mounted as a capacitive element for static electricity blocking. Provided is a contact switch device capable of interrupting the discharge path of static electricity during operation and eliminating the electric shock feeling caused by static electricity.

In addition, the present invention, through the means for interrupting the static electricity between the contact switch and the contact recognition circuit, and further configured to satisfy the predetermined distance condition between the switch pattern and the recognition circuit in order to more effectively block the discharge more static electricity Provided is a contact switch device characterized in that effectively cut off.

Description

Touch switch device {TOUCH SWITCHING SYSTEM}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a touch switch system, and more particularly, to a touch switch device capable of preventing an electric shock caused by static electricity of a human body when a switch is touched.

The structure and circuit configuration of a conventional contact switch device are shown in FIG.

A contact switch unit 1 for detecting a switch contact by a user, a contact recognition unit 2 for recognizing whether the user contacts the contact switch unit 1, and a predetermined signal to the contact recognition unit 2 Receives a response signal according to whether or not the user's contact is applied to determine the switch contact and the microcomputer (3) to perform the device operation control of the function.

Here, the contact switch unit 1; A conductive pattern portion 102 for circuit connection is provided on the lower side of the printed circuit board (PCB) 101, a conductive connection pin 103 is soldered to the conductive pattern portion 102, and a conductive connection pin ( 103 is fitted with a rubber rod 104 made of carbon material, and a switch knob 105 made of conductive plating is opposed to the front end of the carbon rubber rod 104 to form a structure.

And, the contact recognition unit 2; It consists of a contact sensing circuit 201 and a pulse generating circuit 202 consisting of resistors R1, R2, R3 and a capacitor C1 and a transistor Q1. The touch sensing circuit 201 is pulsed from the microcomputer 3; Receives a signal to generate a detection signal according to whether the user contacts the contact switch unit 1, the detection signal is input to the pulse generator 202 as a response signal corresponding to the user switch contact the microcomputer (3) Is provided in the form of a pulse signal.

The contact switch unit 1 and the contact recognition unit 2 may be provided n corresponding to the number of switches of the device.

The operation of the conventional touch switch device configured as described above is performed as follows.

When the user touches the switch knob 105 (usually a light touch with a finger), the potential Vcc of the touch sensing circuit 201 of the touch recognition unit 2 is changed by the electrostatic capacitance of the human body. 102 is charged through the connecting pin 103, the carbon rubber rod 104, the switch knob 105, and the potential charged to the human body is a pulse signal applied from the microcomputer 3 to the emitter of the transistor Q1. When the transistor is at the low level, the transistor Q1 is switched on.

Accordingly, the pulsed detection signal generated by the collector of the transistor Q1 is input to the pulse generator 202, and the pulse generator 202 uses the input pulsed detection signal as the clock signal CLK to provide the microcomputer ( 3) make the same pulse as the signal applied to the emitter of transistor Q1 and output it as a response signal, and receive this response pulse signal from the microcomputer 3 to determine which switch is contacted to Device control will be performed.

That is, while the user's finger and the like touch the switch knob of the device, the same pulse as the reference pulse signal output from the microcomputer is input to the microcomputer as a response signal, so the microcomputer can recognize the switch and control the corresponding function by human contact. Will be done.

However, such a conventional contact switch device has the following problems.

Depending on environmental conditions such as dry environment or clothing worn by switch operators, human body generates high static electricity of several kV.

When the user who has such static electricity operates the contact switch, the high voltage static electricity distributed in the human body is discharged to the device circuit through the conductive switch knob, the carbon rubber rod, and the connecting pin.

As such, when the static electricity of the high potential is momentarily discharged, the user is subjected to an electric shock due to the static discharge.

This shock, of course, is not enough to cause serious harm to the human body, but it can cause psychological atrophy, startle or discomfort.

Therefore, psychologically, the user experiences an electric shock feeling caused by static electricity whenever the touch switch is operated, and this point gives a feeling of anxiety, discomfort or atrophy for the user's switch operation conditionally.

The present invention provides a touch switch device comprising a means for interrupting static electricity between the touch switch and the touch recognition circuit, so as not to be subjected to electric shock, discomfort, and atrophy due to static electricity when the touch switch is operated. .

The present invention is characterized in that through the capacitive means as a means for blocking the static electricity between the contact switch and the contact recognition circuit to block the discharge path of the static electricity during the operation of the contact switch to exclude the electric shock caused by the static electricity Provided is a contact switch device.

The present invention intervenes capacitive means as a means for blocking static electricity between the touch switch and the touch recognition circuit, and uses a printed circuit board (PCB) on which the switch structure is mounted as a capacitive element for preventing static electricity during operation of the touch switch. Provided is a contact switch device capable of interrupting the discharge path of static electricity and eliminating the electric shock feeling caused by static electricity.

According to the present invention, the static electricity between the contact switch and the contact recognition circuit is intervened, and the static electricity is more effectively prevented by configuring the switch pattern and the recognition circuit to satisfy a predetermined distance distance condition in order to more effectively block the discharge. It provides a contact switch device characterized in that the blocking.

1 is a view showing the structure and circuit configuration of a conventional contact switch device

2 is a view showing the structure of a contact switch device of the present invention;

3 is a view showing the up and down switch pattern of the contact switch device of the present invention;

4 is a view showing up and down switch patterns corresponding to a plurality of switches of the contact switch device of the present invention;

Figure 2 shows an embodiment structure of the contact switch unit in the touch switch device of the present invention, Figure 3 shows the pattern portion on the upper side and the lower portion of the printed circuit board in the contact switch structure of Figure 2, Figure 4 is As another embodiment of the contact switch device, when forming three contact switches, the upper portion of the printed circuit board and the lower portion of the pattern are shown.

The contact switch device of the present invention; A touch switch unit for detecting a switch contact by the user and blocking the electrostatic discharge path of the user, a contact recognition unit for recognizing whether the user touches the contact switch unit, and a user by applying a predetermined signal to the touch recognition unit It is composed of a microcomputer receiving the response signal according to whether or not to contact the switch and performs the control of the device operation of the function, wherein the circuit configuration and operation of the touch recognition unit and the microcomputer is the same as in FIG.

2 shows a switch structure of the contact switch section 4 of the present invention.

As a capacitive element using a printed circuit board (401) as a dielectric, an upper conductive pattern portion 402 and a lower conductive pattern portion 403 facing each other on the upper and lower sides of the printed circuit board 401 to block static electricity. Was formed.

In the center of the upper conductive pattern portion 402, a carbon coating portion 404 is formed to prevent corrosion of the pattern portion due to the switch operation.

One end of the carbon rubber rod 405 is opposite to the carbon coating 404, and the switch knob 406 is integrated into the carbon rubber rod 405 in a fitting or the like structure.

Here, the upper and lower conductive pattern portions 402 and 403 are formed to have a constant area S as shown in FIG. 3, whereby the dielectric constant p and the thickness l of the PCB 401 are formed. ), The capacitance value of the capacitive element by the upper and lower conductive pattern portions 402 and 403 and the printed circuit board 401 has a value of approximately p · S / l.

According to the contact switch device of the present invention configured as shown in Figs. 2 and 3, the discharge path of the static electricity of the human body is blocked by the capacitive element.

When the user contacts the switch knob 406 for the switch operation, the capacitance of the human body and the capacitance of the capacitive element including the printed circuit board 401 and the upper and lower conductive pattern portions 402 and 403 are connected in series. It becomes a state.

At this time, since the static electricity of the human body is a direct current component, there is no fear of being blocked by the capacitive element formed of the printed circuit board 401 and the upper and lower conductive pattern portions 402 and 403 to be transmitted (discharged) to the contact recognition unit 2. .

And, in the state in which the static discharge path is blocked in this way, as in FIG. 1; The potential Vcc of the touch sensing circuit 201 of the touch recognition unit 2 is lower conductive pattern portion 403-PCB 401-upper conductivity due to the capacitance of the human body and the capacitance by the capacitive element. Charged through the pattern portion 403-the carbon coating 404-the carbon rubber rod 405-the switch knob 406, the potential charged to the human body is transferred from the microcomputer 3 to the emitter of the transistor Q1. When the applied pulse signal is at the low level, the transistor Q1 is switched on.

Accordingly, the pulsed detection signal generated by the collector of the transistor Q1 is input to the pulse generator 202, and the pulse generator 202 uses the input pulsed detection signal as the clock signal CLK to provide the microcomputer ( 3) make the same pulse as the signal applied to the emitter of transistor Q1 and output it as a response signal, and receive this response pulse signal from the microcomputer 3 to determine which switch is contacted to Device control will be performed.

That is, while the user's finger and the like touch the switch knob of the device, the same pulse as the reference pulse signal output from the microcomputer is input to the microcomputer as a response signal, so the microcomputer can recognize the switch and control the corresponding function by human contact. In this case, since the static electricity of the human body is blocked by the discharge path, the user is free from the electric shock feeling caused by the static electricity.

Fig. 4 is a case where three pairs of capacitive elements (three pairs of upper and lower conductive pattern portions) corresponding to three switch structures are formed as another embodiment of the contact switch device of the present invention, and the static electricity using air as a medium. As a countermeasure against discharge, a predetermined distance (t, 2t) is given.

In this case, the separation distance t represents a distance from the outside of the conductive pattern portions 402 and 403 to the edge of the printed circuit board 401, and 2t is a distance between the conductive pattern portion 402 and the contact recognition portion 2. Indicates distance.

This distance t (2t) is appropriately set in accordance with the voltage range of the static electricity and the operating voltage range of the circuit.

Further, under the assumption that the electrostatic discharge path is made to the lower conductive pattern part 403 using air as the medium in the upper conductive pattern part 402, the total length of the discharge path is approximately t (the upper conductive pattern part 402). Distance from the outer edge of the PCB to the upper edge of the PCB) + t (the distance from the lower edge of the PCB to the lower conductive pattern portion 403) = 2t, so that the conductive pattern portion 402 and the contact recognition portion 2 If the space is separated by 2t, the static discharge path that can make air can also be blocked completely.

The touch switch device of the present invention can exclude the feeling of electric shock due to the discharge of static electricity of the human body through the switch circuit when the human body is in contact with the switch.

Therefore, when the user operates (contacts) the switch, it is possible to prevent a feeling of shock or atrophy due to static electricity, and an empirical contraction or discomfort for static electricity can be prevented each time the touch switch is operated.

Claims (4)

A contact switch device having a contact switch unit and a contact recognition circuit and determining whether the switch is in contact with a signal change according to whether or not the human body is in contact, An upper conductive pattern portion that is energized with the contact switch portion and a lower conductive pattern portion that is energized with the contact recognition circuit, with a printed circuit board (PCB) on which a switch structure is mounted, respectively, above and below the printed circuit board (PCB). Contact switch device comprising a formed static electricity blocking means. The touch switch device of claim 1, wherein the static electricity blocking means is a capacitive element. delete The touch switch device of claim 1, wherein the upper / lower conductive pattern portion and the contact recognition circuit maintain a predetermined separation distance for blocking an electrostatic discharge of a human body using air as a medium.