KR101029845B1 - Capacitive double-sided touch switch using a printed circuit board - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a capacitive double-sided touch switch using a printed circuit board, and more particularly, to forming a remote controller having several capacitive touch switches and a panel for operating various devices by using various types of PCBs. In the case of the double-sided PCB provided on both sides, several touch patterns themselves are formed to be electrically separated from each other, but the capacitance value formed at the touch does not affect the other side. Sensitivity is set to form a double-sided touch switch pattern using the double-sided PCB, or the touch sensitivity is formed larger than the thickness of the PCB so that the capacitance value formed during the touch affects the other side using the double-sided PCB The dual touch switch pattern (same key is formed on both sides) and the copper foil surface is provided on three or more layers In this case, the touch patterns themselves are formed to be electrically separated from each other on both sides, but the sensitivity is set so that the capacitance value is formed smaller than the thickness of the PCB so that the capacitance value formed at the touch does not affect the other surface. The intermediate layer is grounded to form a double-sided touch switch pattern using a multi-layer PCB that does not interfere with and interfere with noise by both sides and adjacent touch patterns, and in the case of a single-sided PCB which has only a few touch patterns formed on one surface On the surface, the touch display is printed on the position corresponding to the position of the touch patterns formed on one surface, and the touch sensitivity is formed larger than the thickness of the PCB so that the capacitance value formed during the touch affects the other surface. The dual touch switch pattern (the same key is formed on both sides) is characterized by the above-mentioned.

Therefore, by making the most of the space of double-sided, multi-layered or single-sided PCB, it is possible to form a large number of touch switches in the form of a card, which can greatly reduce the production cost of the product, and it is also highly durable and can be miniaturized. It can be operated from both sides, so the usability of the product can be greatly improved.

ICs for double-sided or multilayered and single-sided PCBs, capacitive, double-sided touch switches, dual touch switches, touch pads, touch switch

Description

Capacitive double-sided touch switch using printed circuit boards}

The present invention relates to a capacitive double-sided touch switch using a printed circuit board, and more particularly, by detecting a touch of a human body through the detection of a change in dielectric constant, and outputting a signal according to each switch operation through a touch switch driving IC. In the case of configuring several touch switches on a printed circuit board (hereinafter referred to as "PCB"), the remote control is included in such a way that a large number of touch switches can be formed by making the most of the space for the PCB having the same area. By providing a capacitive double-sided touch switch that can be used as an operation panel of various devices in the form of a card, it can significantly reduce the production cost of the product and at the same time, it is durable and can be miniaturized. It can be operated from both sides, so the usability of the product is also invented to greatly improve.

That is, when forming a remote control having several capacitive touch switches and various device operation panels using various types of PCBs, in the case of a double-sided PCB having copper foil on both sides, several touch patterns themselves are placed on both sides. It is formed to be electrically separated from each other, so that the capacitance value is formed to be smaller than the thickness of the PCB so that the capacitance value formed during the touch does not affect the other surface to set the sensitivity to configure a double-sided touch switch pattern using the double-sided PCB To make the touch sensitivity larger than the thickness of the PCB so that the capacitance value formed at the touch can affect the other surface, thereby forming a dual touch switch pattern using the double-sided PCB (same key is formed on both sides). In the case of a multilayer PCB having three or more copper foil surfaces, several touch patterns themselves are formed to be electrically separated from each other on both sides. In order to prevent the formed capacitance value from affecting the other surface, sensitivity is set so that the capacitance value is formed smaller than the thickness of the PCB, and the middle layer is grounded so that both sides and adjacent touch patterns interfere and interfere with each other. In the case of the single-sided PCB, which forms a double-sided touch switch pattern using a multi-layer PCB that is not formed, and also has to form several touch patterns on only one surface, the touch display is printed on the other side corresponding to the position of the touch patterns formed on one surface. The touch sensitivity is greater than the thickness of the PCB so that the capacitance value formed on the touch can affect the other side, thereby forming a double touch switch pattern (same key on both sides) By making the most of the space on the PCB, many touch switches can be formed in the form of cards. Capacitive type using a printed circuit board invented to greatly reduce the production cost of the product, as well as the durability and miniaturization, and the switch itself can be operated on both sides. It relates to a double-sided touch switch.

In general, a change in capacitance is realized by a switch. In the case of a general touch switch, a capacitive pattern is directly printed on a film to be directly touched by a person, or a PCB or an FPCB. A switching circuit is formed on the back.

Meanwhile, in the case of a transparent touch switch, a switch may be implemented by stacking a transparent conductive material on the back of the display protection window by printing or etching, or laminating a conductive material on a film, and then attaching the back to the back of the display protection window to implement the switch. Also, in the case of the touch screen, a switching pattern is formed on one side of the film, and then a film or a thin dielectric protective film is attached to the front surface of the display screen or the protective screen and to protect the film on the upper surface. The switch is attached to implement the switch.

Looking at the switch implementations, first, in the case of a method of implementing a switch by stacking a pattern on the back of the display protection window, or by attaching a film laminated pattern on the back of the display protection window, the switching patterns are each individually and independently have a constant area Branches are shaped or shaped, and individual patterns are connected 1: 1 with the drive IC.

In this way, each switch has an area of each independent pattern, and the larger the area, the greater the touch sensitivity, so that the back side of the display protection window can be used, so that the pattern is not damaged even if a scratch occurs in the display protection window. On the other hand, when the number of switches is increased by 1: 1 connection with the driving IC, the size of the chip is increased because more switches must be integrated in the driving IC, resulting in a higher IC price.

Next, in the case of the touch screen method, in forming a switching pattern, bar-shaped patterns may be formed in a plurality of lines, but each switch may be embodied in a large number of switches, which is advantageous when using a large number of switches. When configuring a switch on a large screen, it is easy to configure the position of the switch, but compared to the former individual switch method, the switch does not have an independent area for each switch pattern. The sensitivity is so low that the back of the display protection window is not available.

Thus, the film with the switch pattern is attached to the front surface of the display protection window, and the attached film is thin and torn or scratched, so durability is low. It has a disadvantage.

Meanwhile, when configuring a touch switch using a PCB, several touch patterns are formed on a surface of the PCB at predetermined intervals, and these touch patterns are electrically connected to the touch switch driving IC through a copper foil installed at one side of the PCB. The backside of the transparent film placed on the upper surface of the PCB has a configuration in which a capacitive touch switch is formed by laminating a transparent conductive material at a position corresponding to the touch patterns by printing or etching.

However, a touch switch using a PCB having such a configuration has a limitation in forming or installing a touch switch corresponding to the area of the PCB, so that the number of switches is limited and the design of the touch switch is difficult, and also a large number of touch switches. If the need for a large area of the PCB is required because it is not possible to miniaturize the product, there is a problem that the production cost of the product is increased.

In particular, most PCB touch switches use only a few touch patterns on one side regardless of the type of the PCB (ie, single-sided PCB, double-sided PCB, or multilayer PCB, etc.). Since the touch switch can be operated, the usability of the product is also poor.

The present invention has been made in order to solve such a conventional problem, several touch switches that detect the touch of the human body through the detection of the change in dielectric constant and outputs a signal according to each switch operation through the touch switch driving IC In the PCB, the production cost of the product requiring the touch switch can be formed by using the space for the double-sided, multi-layered or single-sided PCB with the same area to make a large number of touch switches separately or double on each side. It is possible to provide a capacitive double-sided touch switch using a printed circuit board that can greatly reduce the cost, and also have excellent durability and can be miniaturized, and the switch itself can be operated on both sides. The purpose is.

A first embodiment of the present invention for achieving the above object, in the configuration of a capacitive touch switch using a printed circuit board (PCB) having a copper foil surface on both sides, electrically insulating on both sides of the PCB Each touch pattern is formed in a matrix manner, and a touch switch driving IC is installed on one side of both sides of the PCB, and several touch patterns respectively formed on both sides of the PCB are formed on both sides of the PCB through the signal transmission pattern. It is electrically connected to each of the touch switch driving ICs installed on one surface thereof, and adjusts the sensitivity adjusting capacitance and resistance value built in the touch switch driving IC itself, or to an input terminal of the touch switch driving IC. Capacitance value formed on touch by adjusting capacitance and resistance value for connected sensitivity is smaller than PCB thickness so as not to affect the other side It is characterized in that several different touch switches are formed on both sides by setting the sensitivity so that the capacitance value is formed.

A second embodiment of the present invention for achieving the above object, in the configuration of a capacitive touch switch using a printed circuit board (PCB) having a copper foil surface on both sides, electrically insulating on both sides of the PCB Each touch pattern is formed in a matrix manner, and each touch switch driving IC is installed on both sides of the PCB, and several touch patterns respectively formed on both sides of the PCB are installed on the corresponding surface through the signal transmission pattern. Each of which is electrically connected to the touch switch driving IC, and for adjusting sensitivity and resistance of the sensitivity adjustment built in the touch switch driving IC, or for the sensitivity connected to the input terminal of the touch switch driving IC. Capacitance and resistance value can be adjusted to make capacitance smaller than the thickness of the PCB so that the capacitance value formed on touch does not affect the other side. Sensitivity is set so that a value is formed so that several different touch switches are formed on both surfaces.

A third embodiment of the present invention for achieving the above object, in the configuration of a capacitive touch switch using a printed circuit board (PCB) having a copper foil surface on both sides, electrically insulating on both sides of the PCB Each touch pattern is formed in a matrix manner, and a touch switch driving IC is installed on one side of both sides of the PCB, and several touch patterns respectively formed on both sides of the PCB are formed on both sides of the PCB through the signal transmission pattern. It is electrically connected to each of the touch switch driving ICs installed on one surface thereof, and adjusts the sensitivity adjusting capacitance and resistance value built in the touch switch driving IC itself, or to an input terminal of the touch switch driving IC. By adjusting the capacitance and resistance values for the connected sensitivity, the touch sensitivity is applied to the PCB so that the capacitance value formed during touch affects the other side. Formed to be larger than the one to be formed is characterized in that each of the double touch switch has the same key on the PCB.

A fourth embodiment of the present invention for achieving the above object, in the configuration of a capacitive touch switch using a multilayer printed circuit board (PCB) having a copper foil surface of three or more layers, both sides of the outer side of the multilayer PCB Several touch patterns electrically insulated from each other are formed in a matrix manner, and a touch switch driving IC is installed on one of the outer sides of the multilayer PCB, and the several touch patterns respectively formed on the outer sides of the multilayer PCB are signaled. Electrically connected to each of the touch switch driving ICs installed on any one of the outer both sides of the multilayer PCB through a transfer pattern, and the middle layer of the multilayer PCB is grounded so that the outer sides and adjacent touch patterns interfere with and interfere with each other. Is not made, and the sensitivity adjustment capacitance and resistance value built in the touch switch driving IC itself are adjusted or The capacitance value is formed to be smaller than the thickness of the multilayer PCB so that the capacitance value formed at the touch does not affect the other surface by adjusting the sensitivity capacitance and the resistance value connected to the input terminal of the touch switch driving IC. Sensitivity is set so that several different touch switches are formed on both sides of the outer surface.

The fifth embodiment of the present invention for achieving the above object, in the configuration of a capacitive touch switch using a multilayer printed circuit board (PCB) having a copper foil surface is provided on three or more layers, the outer both sides of the multilayer PCB Each touch pattern which is electrically insulated from each other is formed in a matrix manner, and touch switch driving ICs are installed on both sides of the multilayer PCB, respectively. It is electrically connected to each of the touch switch driving ICs installed on the corresponding surface through a pattern, and the intermediate layer of the multilayer PCB is grounded so that interference and interference by noise between the outer both sides and adjacent touch patterns are not made. The sensitivity adjustment capacitance and resistance value built in the touch switch driving IC itself may be adjusted or the touch switch driving may be performed. By adjusting the capacitance and resistance value for sensitivity connected to the input terminal of the IC, the sensitivity is set so that the capacitance value is formed smaller than the thickness of the multilayer PCB so that the capacitance value formed at the touch does not affect the other side. A plurality of different touch switches are formed on both sides, respectively.

A sixth embodiment of the present invention for achieving the above object, in the configuration of a capacitive touch switch using a multilayer printed circuit board (PCB) having a copper foil surface of three or more layers, both sides of the multilayer PCB Several touch patterns electrically insulated from each other are formed in a matrix manner, and a touch switch driving IC is installed on one of the outer sides of the multilayer PCB, and the several touch patterns respectively formed on the outer sides of the multilayer PCB are signaled. Electrically connected to each of the touch switch driving ICs installed on any one of the outer both sides of the multilayer PCB through a transfer pattern, and the middle layer of the multilayer PCB is grounded so that the outer sides and adjacent touch patterns interfere with and interfere with each other. Is not made, and the sensitivity adjustment capacitance and resistance value built in the touch switch driving IC itself The touch sensitivity is formed to be greater than the thickness of the multilayer PCB so that the capacitance value formed during the touch may affect the other surface by adjusting the sensitivity capacitance and the resistance value connected to the input terminal of the touch switch driving IC. Thus, a dual touch switch having the same key is formed on each of the multilayer PCBs.

A seventh embodiment of the present invention for achieving the above object, in the configuration of a capacitive touch switch using a single-sided printed circuit board (PCB) having a copper foil surface on only one surface, it is electrically insulated from each other on the single-sided PCB While forming several touch patterns in a matrix method, and installing a touch switch driving IC on the PCB, several touch patterns formed on the single-sided PCB is installed on the surface through a signal transmission pattern for driving the touch switch Each is electrically connected to the IC and adjusts the sensitivity adjusting capacitance and resistance value built in the touch switch driving IC, or the sensitivity capacitance and resistance value connected to the input terminal of the touch switch driving IC. By adjusting, the touch sensitivity is formed larger than the thickness of the PCB so that the capacitance value formed during touch affects the other surface. The dual touch switches having the same key on both sides of the is characterized in that each formed.

In the seventh exemplary embodiment, the touch display part is printed on a surface corresponding to the position of the touch patterns on one surface on the other surface without the copper foil surface.

In addition, in the seventh embodiment, the other surface without the copper foil surface is characterized in that the film or sticker on which the touch display unit is printed is further installed at a position corresponding to the position of the touch patterns on one surface.

In the first to seventh embodiments, an insulating material is coated or printed on the other surfaces of the surface on which the touch pattern is formed except for the touch switch driving IC and the terminal connection unit.

In addition, the upper surface of the insulating material applied or printed on the upper surface of the touch pattern is characterized in that the further printing of the switch-shaped touch display.

As described above, according to the present invention, in configuring a plurality of touch switches on a PCB for detecting a touch of a human body through the detection of a change in dielectric constant and outputting a signal according to each switch operation through a touch switch driving IC, By making the most of the space for double-sided PCB, multi-layer PCB or single-sided PCB with the same area, many touch switches can be formed separately or duplex on each side, which can greatly reduce the production cost of products requiring touch switches. In addition, it is very useful invention, such as durability can be miniaturized, and the switch itself can be operated from both sides, and the usability of the product can be greatly improved.

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

1 is an exploded perspective view of a double-sided touch switch according to a first embodiment of the present invention, Figure 2 (a) (b) is a back and plan view of the double-sided touch switch according to the first embodiment of the present invention, Figure 3 Is a partially enlarged front sectional view of the double-sided touch switch according to the first embodiment of the present invention, Figure 4 is an exploded perspective view of the double-sided touch switch according to the second embodiment of the present invention, Figure 5 (a) (b) is FIG. 6 is a rear and plan views of the double-sided touch switch according to the second embodiment of the present invention. FIG. 6 is an enlarged partial cross-sectional view of the double-sided touch switch according to the second embodiment of the present invention.

7 is an exploded perspective view of a double-sided touch switch according to a third embodiment of the present invention, and FIG. 8A and FIG. 8B are rear and top views of the double-sided touch switch according to the third embodiment of the present invention. 9 is a partially enlarged front sectional view of a double-sided touch switch according to a third embodiment of the present invention, FIG. 10 is a partially enlarged front sectional view of a double-sided touch switch according to a fourth embodiment of the present invention, and FIG. A partially enlarged front sectional view of a double-sided touch switch according to a fifth embodiment, and FIG. 12 is a partially enlarged front sectional view of a double-sided touch switch according to a sixth embodiment of the present invention.

FIG. 13 is an exploded perspective view of a double-sided touch switch in which a touch display unit is printed on a surface without a copper foil in a seventh embodiment of the present invention, and FIGS. 14A and 14B are double-sided touch switches in FIG. 13. 15 is a partially enlarged front sectional view of a double-sided touch switch in which a touch display is printed on a surface without a copper foil in a seventh embodiment of the present invention, and FIG. 16 is a seventh embodiment of the present invention. 2 is an exploded perspective view of a double-sided touch switch provided with a film or a sticker on which a touch display unit is printed on a surface without a copper foil surface.

However, the touch pattern 5 and the signal transmission pattern 6, the insulating material 10, and the touch display unit formed on both sides or one side of the double-sided PCB 1, the multilayer PCB 2, and the single-sided PCB 3, respectively. 8) is actually formed in the same plane or stacked form on both sides or one side of the PCB or separated to show the understanding on the perspective view, and also in the front cross-sectional view according to each embodiment the insulating material 10 and the display unit ( 10 is omitted.

Accordingly, according to the first embodiment of the present invention,

In constructing a capacitive touch switch using a printed circuit board (PCB) having copper foil surfaces on both sides,

Several touch patterns 5 electrically insulated from each other on both sides of the double-sided PCB 1 are formed in a matrix manner, and on one side of the double-sided PCB 1, a touch switch driving IC 4 is installed. Several touch patterns 5 respectively formed on both sides of the PCB 1 are electrically connected to the touch switch driving ICs 4 installed on any one side of the double-sided PCB 1 through the signal transmission pattern 6. A sensitivity adjustment capacitance and a resistance 7 value built in the touch switch driving IC 4, or a sensitivity capacitance connected to an input terminal of the touch switch driving IC 4. And the sensitivity is set so that the capacitance value is formed to be smaller than the thickness of the double-sided PCB 1 so that the capacitance value formed during the touch does not affect the other side by adjusting the value of the resistor 7 so that several touches on both sides are different. Specially adapted for each switch to be formed It shall be.

The second embodiment of the present invention,

In constructing a capacitive touch switch using a printed circuit board (PCB) having copper foil surfaces on both sides,

Several touch patterns 5 electrically insulated from each other on both sides of the double-sided PCB 1 are formed in a matrix manner, and the touch switch driving ICs 4 are respectively installed on both sides of the double-sided PCB 1, Several touch patterns 5 respectively formed on both sides of the PCB 1 are electrically connected to the touch switch driving ICs 4 installed on the corresponding surfaces through the signal transmission patterns 6, respectively. Sensitivity capacitance and resistance for adjusting the sensitivity and capacitance (7) built in the touch switch driving IC (4) itself or connected to the input terminal of the touch switch driving IC (4) ( 7) The sensitivity is set so that the capacitance value is formed smaller than the thickness of the double-sided PCB (1) so that the capacitance value formed at the touch does not affect the other surface by adjusting the value. Characterized by The.

The third embodiment of the present invention,

In constructing a capacitive touch switch using a printed circuit board (PCB) having copper foil surfaces on both sides,

Several touch patterns 5 electrically isolated from each other on both sides of the double-sided PCB 1 are formed in a matrix manner, and on one side of the double-sided PCB 1, a touch switch driving IC 4 is installed. Several touch patterns 5 respectively formed on both sides of the electrical connection are electrically connected to the touch switch driving ICs 4 installed on any one side of the double-sided PCB 1 through the signal transmission pattern 6. Sensitivity capacitance and resistance (7) adjusted in the sensitivity adjustment capacitance and resistance (7) built in the switch driving IC (4) or connected to the input terminal of the touch switch driving IC (4) (7). By adjusting the value, the touch sensitivity is formed larger than the thickness of the double-sided PCB 1 so that the capacitance value formed at the touch affects the other surface. It is characterized in that each formed.

The fourth embodiment of the present invention,

In constructing a capacitive touch switch using a multilayer printed circuit board (PCB) having three or more copper foil surfaces,

Several touch patterns 5 electrically isolated from each other on both sides of the multilayer PCB 2 are formed in a matrix manner, and a touch switch driving IC 4 is provided on one surface of the outer sides of the multilayer PCB 2. Although the plurality of touch patterns 5 formed on the outer both sides of the multilayer PCB 2 are installed, the touch switch driving ICs installed on any one of the outer sides of the multilayer PCB 2 through the signal transmission pattern 6. (4) electrically connected to each other, and the middle layer (2a) of the multilayer PCB (2) is grounded to prevent interference and interference due to noise between the outer both sides and adjacent touch patterns, and the touch switch driving IC Adjust the sensitivity adjustment capacitance and resistance (7) value built in (4) itself or adjust the sensitivity capacitance and resistance (7) value connected to the input terminal of the touch switch driving IC (4). Capacitance value formed by touching The other side to set the sensitivity, so as not to affect the surface smaller than the thickness of the multi-layer PCB capacitance value to be formed is characterized in that one causes a different number of touch switch formed on the outer sides.

The fifth embodiment of the present invention,

In constructing a capacitive touch switch using a multilayer printed circuit board (PCB) having three or more copper foil surfaces,

Several touch patterns 5 electrically insulated from each other on both sides of the multilayer PCB 2 are formed in a matrix manner, and touch switch driving ICs 4 are respectively provided on the outer sides of the multilayer PCB 2. The plurality of touch patterns 5 respectively formed on the outer both sides of the multilayer PCB 2 are electrically connected to the touch switch driving ICs 4 installed on the corresponding surfaces through the signal transmission patterns 6. The intermediate layer 2a of the multilayer PCB 2 is grounded to prevent interference and interference caused by noise between the outer side surfaces and the adjacent touch patterns, and the sensitivity built in the touch switch driving IC 4 itself. The capacitance value formed at the time of adjustment by adjusting the value of the adjusting capacitance and the resistance (7) or by adjusting the value of the sensitivity capacitance and the resistance (7) connected to the input terminal of the touch switch driving IC (4) is Does not affect the other side Sensitivity is set so that the capacitance value is formed to be smaller than the thickness of the multilayer PCB (2) so that several different touch switches are formed on both sides of the outer surface.

The sixth embodiment of the present invention,

In constructing a capacitive touch switch using a multilayer printed circuit board (PCB) having three or more copper foil surfaces,

Several touch patterns 5 electrically isolated from each other on both sides of the multilayer PCB 2 are formed in a matrix manner, and a touch switch driving IC 4 is provided on one surface of the outer sides of the multilayer PCB 2. Although the plurality of touch patterns 5 formed on the outer both sides of the multilayer PCB 2 are installed, the touch switch driving ICs installed on any one of the outer sides of the multilayer PCB 2 through the signal transmission pattern 6. (4) electrically connected to each other, and the middle layer (2a) of the multilayer PCB (2) is grounded to prevent interference and interference due to noise between the outer both sides and adjacent touch patterns, and the touch switch driving IC Adjust the sensitivity adjustment capacitance and resistance (7) value built in (4) itself or adjust the sensitivity capacitance and resistance (7) value connected to the input terminal of the touch switch driving IC (4). Capacitance value formed by touch Able to influence the surface to be the touch sensitivity larger than the thickness of the multi-layer PCB will be characterized by a double touch switch has the same key in the multi-layer PCB to be formed.

The seventh embodiment of the present invention,

In configuring a capacitive touch switch using a single-sided printed circuit board (PCB) having a copper foil surface on only one surface,

Several touch patterns 5 electrically insulated from each other on the single-sided PCB 3 are formed in a matrix manner, and a touch switch driving IC 4 is installed on the single-sided PCB 3, but the single-sided PCB 3 is disposed on the single-sided PCB 3. The formed touch patterns 5 are electrically connected to the touch switch driving ICs 4 installed on the corresponding surfaces through the signal transmission patterns 6, respectively, and the touch switch driving ICs 4 are formed. When adjusting the built-in sensitivity adjustment capacitance and resistance (7) value or the sensitivity capacitance and resistance (7) value connected to the input terminal of the touch switch driving IC (4) when touched It is characterized in that the touch sensitivity is formed larger than the thickness of the single-sided PCB 3 so that the formed capacitance value affects the other surface, so that the dual touch switches each having the same key are formed on both sides of the single-sided PCB. .

In the seventh embodiment, the touch display unit 8 is printed on the other side of the cross-sectional PCB 3 having no copper foil surface at a position corresponding to the position of the touch patterns 5 on one surface.

In addition, in the seventh embodiment, the film or sticker 9 having the touch display unit 8 printed thereon at a position corresponding to the position of the touch patterns 5 on one surface of the other surface of the single-sided PCB 3 having no copper foil surface. It is characterized by further installation.

In the first to seventh embodiments, the insulating material 10 is coated or printed on the other side of the surface on which the touch pattern 5 is formed except the touch switch driving IC 4 and the terminal connection unit. It is done.

In addition, the upper surface of the insulating material 10 coated or printed on the upper surface of the touch pattern 5 is characterized in that the switch-shaped touch display unit 8 is further printed.

Referring to the effects of the present invention configured as described above are as follows.

First, in the first exemplary embodiment of the present invention, as shown in FIGS. 1 to 3, a capacitive touch switch is configured by using a printed circuit board (PCB) having copper foil surfaces on both sides, but for driving a touch switch. The IC 4 installs only one and sets the touch sensitivity so that the capacitance value is formed smaller than the thickness of the double-sided PCB 1 so that the capacitance value formed at the touch does not affect the other surface. It is the main technical component that allows the touch switch to be formed.

That is, several touch patterns 5 electrically insulated from each other using copper foil surfaces formed on both sides of the double-sided PCB 1 are formed on both sides in a matrix manner, and the touch switch driving IC 4 is double-sided. Is installed on any one side of the PCB (1), each of the several touch patterns (5) formed on both sides of the double-sided PCB (1) is the touch installed on any one side of the double-sided PCB (1) through the signal transmission pattern (6) Each of the switch driving ICs 4 is electrically connected.

In this case, the touch sensitivity of the touch pattern 5 may be adjusted through a program to adjust the sensitivity adjusting capacitance and resistance 7 built in the touch switch driving IC 4, or to drive the touch switch. When the touch pattern 5 formed on one surface of a dielectric such as a finger is touched by adjusting the sensitivity capacitance and the resistance 7 value connected to the input terminal of the IC 4, the value of the capacitance is formed. In order not to affect the other surface, the capacitance value is set to be smaller than the thickness of the double-sided PCB 1 so that the two sides of the double-sided PCB 1 mounted with one touch switch driving IC 4 are different. Several touch switches are formed.

In addition, the second embodiment of the present invention is a modified example of the first embodiment, as shown in Figures 4 to 6, each of which is electrically insulated from each other on both sides of a printed circuit board (PCB) having a copper foil surface on both sides Several touch patterns 5 are formed in a matrix manner, and the touch switch driving ICs 4 are respectively installed on both sides of the double-sided PCB 1, unlike the first embodiment, but on both sides of the double-sided PCB 1, respectively. Each of the several touch patterns 5 formed is electrically connected to the touch switch driving ICs 4 provided on the corresponding surfaces through the signal transmission patterns 6, respectively.

In this case, the touch sensitivity with respect to the touch patterns 5 may be adjusted by adjusting the sensitivity adjusting capacitance and resistance 7 built in the touch switch driving IC 4 or the touch switch driving IC ( By adjusting the capacitance value of capacitance and resistance (7) connected to the input terminal of 4), the capacitance value formed during touch does not affect the other side so that the capacitance is smaller than the thickness of the double-sided PCB 1 By setting the sensitivity to form a value, several different touch switches are formed on both sides of the double-sided PCB 1 on which one touch switch driving IC 4 is mounted on each side.

As described above, in the first and second embodiments of the present invention, in the single double-sided PCB 1, several touch patterns 5 are formed on both sides of the copper foil surface, respectively, and one side or the double-sided PCB 1 is formed. The touch sensitivity of the touch switch driving ICs 4 mounted on both sides is set to be relatively low so that the capacitance value formed at the touch of the touch pattern 5 formed on one surface does not affect the other surface. Since several formed touch patterns 5 operate as several different touch switches on both sides of the double-sided PCB 1, many touch switches can be separately formed on each side by making the most of the space for the double-sided PCB. The production cost of products requiring a touch switch can be greatly reduced, the durability and miniaturization can be reduced, and the switch itself can be operated separately from both sides. Usability can also be greatly improved.

In addition, the third embodiment of the present invention is another modified example of the first embodiment, as shown in Figures 7 to 9, the configuration of the first embodiment (that is, several touch patterns 5 on both sides Formed and the touch switch driving IC 4 is provided on only one surface of the touch switch driving IC 4, and the sensitivity adjustment capacitance and the resistance 7 value embedded in the touch switch driving IC 4 are adjusted. When setting the capacitance value formed at the touch by adjusting the sensitivity capacitance and the resistance (7) value connected to the input terminal of the driving IC (4), the touch pattern (5) formed on one surface is touched. The dual touch switch with the same key is formed on the double-sided PCB 1 in such a way that the touch sensitivity is formed larger than the thickness of the double-sided PCB 1 so that the capacitance value can be influenced to the surface. The main technical components.

That is, the touch value formed at the same position among the several touch patterns 5 formed in a matrix manner on both sides of the double-sided PCB 1 by increasing the set value for the capacitance value formed at the touch than in the first and second embodiments. By operating the capacitive double-sided touch switch to which the fourth embodiment of the present invention is applied by allowing the patterns 5 to have the same switch function, the operator can operate the desired touch switch on either side of the product. Gets very good.

Meanwhile, as shown in FIG. 10, the fourth embodiment of the present invention is an embodiment in which a capacitive touch switch is configured using a multilayer printed circuit board (PCB) having three or more copper foil surfaces. A plurality of touch patterns 5 electrically insulated from each other on both outer surfaces of (2) are formed in a matrix manner, and a touch switch driving IC 4 is installed on one of the outer surfaces of the multilayer PCB 2. The plurality of touch patterns 5 respectively formed on the outer both sides of the multilayer PCB 2 have the touch switch driving ICs 4 installed on any one of the outer both sides of the multilayer PCB 2 through the signal transmission pattern 6. Are electrically connected to each other, and the intermediate layer 2a of the multilayer PCB 2 is grounded to prevent interference and interference by noise between the outer both sides and adjacent touch patterns.

In this case, the touch sensitivity of the touch patterns 5 may be controlled by adjusting the sensitivity adjusting capacitance and resistance 7 built in the touch switch driving IC 4 or the touch switch driving IC ( By adjusting the capacitance of the sensitivity and the resistance (7) connected to the input terminal of 4), the capacitance value formed at the touch of the touch patterns 5 formed on either side of the outer sides does not affect the other side. By setting the sensitivity so that the sensitivity is set smaller than the thickness of the multilayer PCB 2, the touch patterns 5 formed on the outer both sides of the multilayer PCB 2 are different from each other. Will work.

Such a configuration makes the intermediate layer 2a of the multilayer PCB 2 grounded so that interference and interference due to noise are caused between the outer both sides and the adjacent touch patterns compared to the first embodiment constructed using the double-sided PCB 1. Because it does not lose, it works more stably.

In addition, the fifth embodiment of the present invention is a modified example of the fourth embodiment, as shown in Figure 11, the number of electrically insulated from each other on both sides of the outer side of the multilayer printed circuit board (PCB) having three or more copper foil surface Two touch patterns 5 are formed in a matrix manner, and the touch switch driving ICs 4 are respectively installed on the outer side surfaces of the multilayer PCB 2, unlike the fourth embodiment, and the outer side surfaces of the multilayer PCB 2 are formed. Each of the several touch patterns 5 formed on each of the plurality of touch patterns 5 is electrically connected to the touch switch driving ICs 4 installed on the corresponding surfaces through the signal transmission patterns 6, respectively. The intermediate layer 2a is grounded to prevent interference and interference by noise between the outer both sides and adjacent touch patterns.

In this case, the touch sensitivity of the touch patterns 5 may be adjusted by adjusting the sensitivity adjusting capacitance and resistance 7 built in the touch switch driving ICs 4 or the touch switch driving IC ( By adjusting the capacitance value of the sensitivity and the resistance (7) connected to the input terminal of 4), the multilayer PCB (2) so that the capacitance value formed at the touch of the touch patterns 5 does not affect the other surface. By setting the capacitance value to be smaller than the thickness of the plurality of touch switches are formed on the outer both sides of the multi-layer PCB (2) in which one touch switch driving IC (4) is mounted on each outer surface Will have

As described above, in the fourth and fifth embodiments of the present invention, in the single multilayer PCB 2, several touch patterns 5 are formed on the outer both sides, and the intermediate layer 2a is grounded, but the multilayer PCB 2 is The touch sensitivity of the touch switch driving ICs 4 mounted on one or both sides of the touch panel is set to be relatively low so that the capacitance value formed at the touch of the touch pattern 5 formed on one outer surface does not affect the other surface. As a result, several touch patterns 5 formed on both sides of the outer side are operated by several different touch switches on both sides of the multilayer PCB 2, so that a large number of touch switches can be separately used on the outer sides of the multilayer PCB. It can be formed, which can greatly reduce the production cost of products requiring the touch switch, and can be miniaturized while being durable. Each product can be operated separately, which greatly improves the usability of the product.

In addition, the sixth embodiment of the present invention is another modification of the fourth embodiment, as shown in Fig. 12, the configuration of the fourth embodiment (that is, several touch patterns on the outer both sides of the multilayer PCB 2). (5) is formed, and the touch switch driving IC 4 is installed only on one side of the outer both sides, and the intermediate layer 2a is grounded), and the sensitivity built in the touch switch driving IC 4 itself is incorporated. By adjusting the value of the capacitance and resistance (7) for adjustment or by adjusting the value of sensitivity and resistance (7) connected to the input terminal of the touch switch driving IC (4), When setting, the touch sensitivity is formed to be larger than the thickness of the multilayer PCB 2 so that the capacitance value can affect the other surface when the touch pattern 5 formed on the outer surface is touched. Dual touch switch with the same key on the PCB (2) Each of which is formed as a main technical component.

That is, the set value for the capacitance value formed at the time of touch is higher than in the fourth and fifth embodiments, so that the same position among several touch patterns 5 formed in a matrix manner on both sides of the multilayer PCB 2 in a matrix manner. By operating the capacitive double-sided touch switch to which the fifth embodiment of the present invention is applied by allowing the formed touch patterns 5 to have the same switch function, the operator operates the desired touch switch on either side of the outer both sides of the multilayer PCB 2. It can make the product usability and operability very good.

Meanwhile, unlike the first to sixth embodiments described above, the seventh embodiment of the present invention, as shown in FIGS. 13 to 15, has a capacitance using a single-sided printed circuit board (PCB) having a copper foil surface on only one surface thereof. As a configuration example of the type touch switch, several touch patterns 5 electrically insulated from the cross-sectional PCB 3 are formed in a matrix manner, and the touch switch driving IC 4 is formed on the single-sided PCB 3. Although installed, the several touch patterns 5 formed on the single-sided PCB 3 are electrically connected to the touch switch driving ICs 4 installed on the corresponding surfaces through the signal transmission patterns 6. Have

In this case, the touch sensitivity of the touch patterns 5 may be controlled by adjusting the sensitivity adjusting capacitance and resistance 7 built in the touch switch driving IC 4 or the touch switch driving IC ( By adjusting the capacitance of the sensitivity and the resistance (7) connected to the input terminal of 4), the capacitance value formed when the touch patterns 5 are touched affects the copper foil surface and the other surface where the touch pattern itself is not formed. By setting the capacitance value to be larger than the thickness of the single-sided PCB 3 so that the double-sided switch has the same key on both sides of the single-sided PCB 3 that is not provided with the copper foil surface and the touch pattern on one side, respectively. It will have a formed shape.

As described above, when forming the double-sided touch switch using the single-sided PCB 3, since there is no shape on one surface without the copper foil surface, one surface is formed on the other surface of the single-sided PCB 3 on which the copper foil surface and the touch pattern are not formed. 13 to 15 further prints the touch display unit 8 at a position corresponding to the position of the touch patterns 5 or a touch pattern 5 on one surface of the other surface of the single-sided PCB 3 having no copper foil surface. The film or sticker 9 on which the touch display part 8 is printed is further installed at a position corresponding to the positions of the buttons as shown in FIG. 16, so that the user touches the touch switch when the user wants to operate the touch switches on the other side. It is desirable to know exactly where the pattern is located so that you can touch it precisely.

Thus, using a single-sided PCB (3), which is inexpensive compared to a double-sided PCB or a multi-layer PCB, the function of the dual touch switch through the copper foil surface and any other surface without the touch pattern, respectively, including the copper foil surface and the one surface with the touch pattern. If the double-sided touch switch is formed to perform the operation, the production cost of the product requiring the touch switch can be greatly reduced, and the touch switch itself can be operated on both sides, which greatly improves the usability and operability of the product. It can be.

Meanwhile, in the first to seventh embodiments, the touch switch driving IC 4 may be formed on a surface on which the touch pattern 5 is formed as shown in FIGS. 1, 4, 7, 7, 13, and 16 in common. And coating or printing the insulating material 10 on the remaining surfaces except for the terminal connection part so as to prevent interference due to noise between the touch patterns 5 adjacent to each other.

In this case, when the insulating material 10 is simply printed or applied to the upper surface of the touch pattern 5, the position of the touch pattern 5 and which touch switch operates the touch pattern may not be known. In order to improve the quality, the touch display unit 8 having a shape representing characteristics of the corresponding touch switch may be further printed on the upper surface of the insulating material 10 applied or printed on the upper surfaces of the touch patterns 5.

It should 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 in the appended claims.

1 is an exploded perspective view of a double-sided touch switch according to a first embodiment of the present invention.

2A and 2B are rear and plan views of the double-sided touch switch according to the first embodiment of the present invention.

3 is a partially enlarged front sectional view of a double-sided touch switch according to the first embodiment of the present invention.

4 is an exploded perspective view of a double-sided touch switch according to a second embodiment of the present invention.

5A and 5B are rear and plan views of the double-sided touch switch according to the second embodiment of the present invention.

6 is an enlarged front sectional view of a part of the double-sided touch switch according to the second embodiment of the present invention.

7 is an exploded perspective view of a double-sided touch switch according to a third embodiment of the present invention.

8A and 8B are rear and plan views of the double-sided touch switch according to the third embodiment of the present invention.

9 is a partially enlarged front cross-sectional view of the double-sided touch switch according to the third embodiment of the present invention.

10 is a partially enlarged front cross-sectional view of the double-sided touch switch according to the fourth embodiment of the present invention.

11 is an enlarged front end shaving of the double-sided touch switch according to the fifth embodiment of the present invention.

12 is a partially enlarged front cross-sectional view of a double-sided touch switch according to a sixth embodiment of the present invention.

FIG. 13 is an exploded perspective view of a double-sided touch switch in which a touch display unit is printed on a surface without a copper foil in a seventh embodiment of the present invention. FIG.

(A) and (b) of FIG. 14 are rear and plan views of the double-sided touch switch of FIG. 13.

15 is a partially enlarged front sectional view of a double-sided touch switch in which a touch display unit is printed on a surface without a copper foil in a seventh embodiment of the present invention;

FIG. 16 is an exploded perspective view of a double-sided touch switch in which a film or a sticker on which a touch display unit is printed is installed on a surface without a copper foil in a seventh embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: double sided PCB 2: multilayer PCB

3: single sided PCB 4: touch switch driving IC

5: touch pattern 6: signal transmission pattern

7: capacitance and resistance for sensitivity

8: touch display portion 9: film or sticker

10: insulation material

Claims (11)

In constructing a capacitive touch switch using a printed circuit board (PCB) having copper foil surfaces on both sides, Form several touch patterns that are electrically insulated from each other on both sides of the double-sided PCB, and install a touch switch driving IC on one side of the double-sided PCB, but the several touch patterns respectively formed on both sides of the double-sided PCB Electrically connected to each of the touch switch driving ICs installed on any one side of the double-sided PCB, and adjusting sensitivity and capacitance for sensitivity adjustment built in the touch switch driving IC, or for driving the touch switch. By adjusting the capacitance and resistance value for sensitivity connected to the input terminal of the IC, the sensitivity is set so that the capacitance value is formed smaller than the thickness of the double-sided PCB so that the capacitance value formed at the touch does not affect the other side. Capacitive type double sided using a printed circuit board, characterized in that several different touch switches are formed, respectively Touch switch. In constructing a capacitive touch switch using a printed circuit board (PCB) having copper foil surfaces on both sides, Form several touch patterns that are electrically insulated from each other on both sides of the double-sided PCB, and install touch switch driving ICs on both sides of the double-sided PCB, respectively, and several touch patterns respectively formed on both sides of the double-sided PCB are used for signal transmission. It is electrically connected to each of the touch switch driving ICs installed on the surface through a pattern, and adjusts the sensitivity adjusting capacitance and resistance value built in the touch switch driving IC, or controls the touch switch driving. By adjusting the capacitance and resistance value for sensitivity connected to the input terminal of the IC, the sensitivity is set so that the capacitance value is formed smaller than the thickness of the double-sided PCB so that the capacitance value formed at the touch does not affect the other side. Capacitive type double sided using a printed circuit board, characterized in that several different touch switches are formed, respectively Chi switch. In constructing a capacitive touch switch using a printed circuit board (PCB) having copper foil surfaces on both sides, Form several touch patterns that are electrically insulated from each other on both sides of the double-sided PCB, and install a touch switch driving IC on one side of the double-sided PCB, but several touch patterns respectively formed on both sides of the double-sided PCB are used for signal transmission. A pattern is electrically connected to each of the touch switch driving ICs installed on any one side of the double-sided PCB, and the sensitivity adjusting capacitance and resistance value built in the touch switch driving IC are adjusted, or the touch switch By adjusting the capacitance and resistance value for sensitivity connected to the input terminal of the driver IC, the touch sensitivity is formed larger than the thickness of the double-sided PCB so that the capacitance value formed during touch affects the other side. Capacitive double-sided touch switch using a printed circuit board, characterized in that each of the dual touch switch having a key formed location. In constructing a capacitive touch switch using a multilayer printed circuit board (PCB) having three or more copper foil surfaces, Several touch patterns are formed on each of the outer side surfaces of the multilayer PCB, each of which is electrically insulated, and a touch switch driving IC is installed on one side of the outer side surfaces of the multilayer PCB. Is electrically connected to each of the touch switch driving ICs installed on either side of the outer both sides of the multilayer PCB through a signal transmission pattern, and the middle layer of the multilayer PCB is grounded, and the sensitivity built in the touch switch driving IC itself is integrated. By adjusting the capacitance and resistance value or adjusting the capacitance and resistance value for sensitivity connected to the input terminal of the touch switch driving IC, the capacitance value formed at the touch does not affect the other surface. Sensitivity is set so that the capacitance value is made smaller than the thickness of the PCB. Capacitive double-sided touch switch using a printed circuit board, characterized in that each formed. In constructing a capacitive touch switch using a multilayer printed circuit board (PCB) having three or more copper foil surfaces, Form several touch patterns that are electrically insulated from each other on both sides of the multilayer PCB, and install touch switch driving ICs on both sides of the multilayer PCB, respectively. It is electrically connected to each of the touch switch driving ICs installed on the corresponding surface through a transfer pattern, and the middle layer of the multilayer PCB is grounded, and the sensitivity adjusting capacitance and resistance built in the touch switch driving ICs themselves. By adjusting the value or adjusting the capacitance and resistance value for sensitivity connected to the input terminal of the touch switch driving IC, the capacitance value formed during the touch does not affect the outer surface of the multilayer PCB so that the electrostatic capacitance is smaller than the thickness of the multilayer PCB. Sensitivity is set so that the capacitance value is formed so that several different touch switches are formed on both sides of the outer surface. Capacitive touch switch on both sides with a printed circuit board that. In constructing a capacitive touch switch using a multilayer printed circuit board (PCB) having three or more copper foil surfaces, Several touch patterns are formed on each of the outer side surfaces of the multilayer PCB, each of which is electrically insulated, and a touch switch driving IC is installed on one side of the outer side surfaces of the multilayer PCB. Is electrically connected to each of the touch switch driving ICs installed on either side of the outer both sides of the multilayer PCB through a signal transmission pattern, and the middle layer of the multilayer PCB is grounded, and the sensitivity built in the touch switch driving IC itself is integrated. Capacitive value formed at the time of touch is adjusted by adjusting capacitance and resistance value or adjusting sensitivity and resistance value connected to input terminal of touch switch driving IC. Sensitivity is formed larger than the thickness of the multilayer PCB so that dual touch switches with the same key are formed on the multilayer PCB, respectively. Capacitive touch switch on both sides with a printed circuit board, characterized by. In configuring a capacitive touch switch using a single-sided printed circuit board (PCB) having a copper foil surface on only one surface, Form several touch patterns that are electrically insulated from each other on the single-sided PCB, and install a touch switch driving IC on the single-sided PCB, and several touch patterns formed on the single-sided PCB are installed on the corresponding surface through the signal transmission pattern. Each of the sensitivity switch is electrically connected to the touch switch driving IC, and the sensitivity adjusting capacitance and the resistance value built in the touch switch driving IC are connected to each other, or is connected to an input terminal of the touch switch driving IC. By adjusting the capacitance and resistance value, the touch sensitivity is formed to be larger than the thickness of the PCB so that the capacitance value formed at the touch affects the other side, so that double touch switches each having the same key are formed on both sides of the single-sided PCB. Capacitive double-sided touch switch using a printed circuit board, characterized in that. The method of claim 7, A capacitive double-sided touch switch using a printed circuit board, wherein a touch display unit is printed at a position corresponding to the position of touch patterns on one surface of the other surface of the single-sided PCB having no copper foil surface. The method of claim 7, A capacitive double-sided touch switch using a printed circuit board, wherein a film or a sticker on which a touch display part is printed is installed on the other side of the single-sided PCB having no copper foil. The method according to any one of claims 1 to 7, A capacitive double-sided touch switch using a printed circuit board, characterized in that an insulating material is coated or printed on the other side of the surface except the touch switch driving IC and the terminal connection unit on the touch pattern. The method according to claim 10, A capacitive double-sided touch switch using a printed circuit board further comprising a switch-shaped touch display unit printed on an upper surface of an insulating material coated or printed on the upper surface of the touch pattern.

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