KR101030459B1 - Capacitive touch sensor module - Google Patents

Abstract

Disclosed is a capacitive touch sensor module capable of preventing malfunction due to moisture, condensation, etc. by applying a conductive gasket and a moisture proof structure. The capacitive touch sensor module of the present invention includes a touch key PCB assembly including a driving circuit and a touch pad capable of driving a capacitive type; A plurality of conductive silicon gasket buttons connected to the touch pad; A button guide plate having first through holes into which the plurality of conductive silicon gasket buttons are fitted, and being in close contact with the touch key PCB assembly; A guide having a second through hole corresponding to the first through holes of the button guide plate so that the plurality of conductive silicon gasket buttons are fitted, and fixing the edge of the resultant product in which the plurality of silicon gasket buttons are fitted to the button guide plate; A case; A front plate bonded to one surface of the guide case; And a moisture proof pad installed on an opposite side of a surface where the touch key PCB assembly and the plurality of conductive silicon gasket buttons contact each other.

Capacitive, Touch Sensor, Module, Conductive, Silicon Gasket, Button, Moisture Proof

Description

Capacitive touch sensor module

The present invention relates to a capacitive touch sensor module, and more particularly, to a capacitive touch sensor module capable of preventing malfunction due to moisture, condensation, etc. by applying a conductive gasket and a moisture proof structure.

In general, a capacitive touch sensor generates an output signal by detecting a small change in capacitance when a human body or a substance approaches the sensor. However, in the case of the conventional capacitive touch sensor in which the parts are assembled separately, not only the assembly is cumbersome but also the related parts are often lost or damaged during assembly. The trend is to prevent the loss or damage of related components. Korean Patent No. 866342 (Invention: Touch Sensor Module) relates to a touch sensor module that shortens the assembly time by forming touch sensor-related parts into one assembly and prevents loss or damage of related parts. It is starting. However, these prior arts have no countermeasure against moisture proof of the touch sensor, and there is a fear of malfunction due to moisture, condensation and the like. In addition, in the related arts, there is a fear of malfunction due to such a gap because a method for eliminating a mechanical gap between a touched portion and a sensing portion is not provided.

Accordingly, the problem to be solved by the present invention is to provide a capacitive touch sensor module that can prevent the malfunction due to mechanical gap, the malfunction caused by moisture, condensation, and the like.

The capacitive touch sensor module of the present invention for solving the above technical problem is:

A touch key PCB assembly comprising a drive circuit and a touch pad capable of driving a capacitive type;

A plurality of conductive silicon gasket buttons made integrally to be connected to the touch pad, each separated by an insulating material portion;

A button guide plate having first through holes into which the plurality of conductive silicon gasket buttons are fitted, and being in close contact with the touch key PCB assembly;

A guide having a second through hole corresponding to the first through holes of the button guide plate so that the plurality of conductive silicon gasket buttons are fitted, and fixing the edge of the resultant product in which the plurality of silicon gasket buttons are fitted to the button guide plate; A case;

A front plate bonded to one surface of the guide case;

A moisture proof pad installed on an opposite side of a surface where the touch key PCB assembly and the plurality of conductive silicon gasket buttons contact each other;

Characterized in having a.

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In addition, the moisture-proof pad is preferably made of a rubber (rubber) material containing an adhesive on the surface in contact with the touch key PCB assembly.

The front plate may be adhered to one surface of the guide case to be moistureproof.

Furthermore, a double-sided adhesive plate having third through holes through which the plurality of conductive silicon gasket buttons pass is located between the front plate and one surface of the guide case, thereby allowing the front plate to be attached to one surface of the guide case. Also good.

It is also preferable that the button guide plate is made of rubber.

According to the present invention, malfunctions due to mechanical gaps, malfunctions due to moisture, condensation, and the like can be prevented, so that product quality and reliability can be improved.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following examples are only presented to understand the content of the present invention, and those skilled in the art will be capable of many modifications within the technical spirit of the present invention. Therefore, the scope of the present invention should not be construed as being limited to these examples.

1 is an exploded perspective view of a capacitive touch sensor module 100 according to an embodiment of the present invention. Referring to FIG. 1, it can be seen that each of the 3 × 4 conductive silicon gasket buttons 110 is fitted into the first through hole 122 provided to correspond to the button guide plate 120 made of rubber. . In the present embodiment, the conductive silicon gasket buttons 110 are made of one piece, and in this case, between the adjacent conductive silicon gasket buttons 110, as illustrated in FIGS. 1 and 2, the insulating material portion 210 is sandwiched. For example, they are electrically isolated. In this embodiment, the conductive silicon gasket buttons made of one-piece are used, but they may be separated from each other individually. 2 is a cross-sectional view taken along line AA ′ of the conductive silicon gasket buttons 110 that are integrally manufactured. Referring to FIG. 2, each of the conductive silicon gasket buttons 110 has a hollow cylinder shape, an upper portion has a first outer diameter d1, and a lower portion has a second outer diameter d2 larger than the first outer diameter d1. ), A stepped portion 220 is formed along the outer circumference of the conductive silicon gasket button 110. The first through hole 122 provided in the button guide plate 120 has the same diameter as the first outer diameter d1 of the conductive silicon gasket button 110, so that the conductive silicon gasket button is provided in the first through hole 122. The portion having the first outer diameter d1 of 110 is inserted. However, since the lower portion of the stepped portion 220 has a second outer diameter d2 larger than the first outer diameter d1, the conductive silicon gasket button 110 is caught by the stepped portion 220 without being inserted deeper. A touch key PCB assembly 130 is positioned on the opposite side to which the conductive silicon gasket button 110 and the button guide plate 120 are coupled. The touch key PCB assembly 130 includes a driving circuit (not shown) and a touch pad (not shown) for driving a capacitive type, and the touch pad includes a second outer diameter of the conductive silicon gasket button 110. The bottom surface of the portion having d2) is in electrical contact, and a ring-shaped groove having a shallow depth so that the bottom portion of the portion having the second outer diameter d2 of the conductive silicon gasket button 110 can be seated to increase assemblability. 132 is optionally formed in the touchkey PCB assembly 130. Referring to FIG. 2, it can be seen that the bottom of the insulating material portion 210 connecting the adjacent conductive silicon gasket buttons 110 is slightly higher than the bottom of the conductive silicon gasket button 110. The bottom portion of the portion having the second outer diameter d2 of the gasket button 110 is to be easily inserted and fixed in the ring-shaped groove 132 of the touch key PCB assembly 130. The conductive silicon gasket button 110, the button guide plate 120, and the touch key PCB assembly 130 are coupled to each other, and the resultant is received in the guide case 140 that surrounds and fixes the edge thereof. 140 has second through holes 142 corresponding to the first through holes of the button guide plate 120 so that the portion having the first inner diameter d1 of the conductive silicon gasket buttons 110 is located in the second through hole. The upper end of the conductive silicon gasket button 110 passes through the 142 to contact the front plate 150. The conductive silicon gasket button 110, the button guide plate 120, the touch key PCB assembly 130, and the guide case 140 have screws 160 passing through the screw holes 125, 135, and 145 formed in the respective ones. Are bonded to each other by In FIG. 1, the screw holes are not shown on the side of the integrated conductive silicon gasket button 110, because the conductive silicon gasket buttons 110 protrude and cover the screw holes, and the conductive silicon gasket buttons 110 are integrally formed. If there is, of course, there must be a screw hole penetrating the insulating material portion 210. The front plate 150 is an outer case of the front portion where the touch is made, and is made of a transparent or translucent moisture-proof material so that the user can see the conductive silicon gasket buttons 110 with the naked eye. The double-sided adhesive plate 170 is positioned between the front plate 150 and the guide case 140 so that the front plate 150 is attached to the guide case 140. The double-sided adhesive plate 170 also has a conductive silicon gasket button. Third through holes 172 through which the 110 passes are formed. Meanwhile, a moisture proof pad 180 made of a rubber material is covered on a surface opposite to a surface where the touch key PCB assembly 130 and the conductive silicon gasket button 110 contact each other, thereby forming a moisture proof sealed structure. An adhesive is applied to a surface of the moisture pad 180 that contacts the touch key PCB assembly 130 so that the moisture pad 180 is attached to the touch key PCB assembly 130.

FIG. 3 is a cross-sectional view of the capacitive touch sensor module of FIG. 1 after being cut along the line B-B '. FIG. In FIG. 3, some of the components, such as thickness, are exaggerated to clearly show the assembling relationship of the components. Therefore, it should be noted that each component may not be proportionally displayed according to the scale. Referring to FIG. 3, the body of the conductive silicon gasket button 110 penetrates through the button guide plate 120, the guide case 140, and the double-sided adhesive plate 170, and the bottom thereof is the touch key PCB assembly 130. It can be seen that the upper end is in contact with the front plate 150, respectively. The conductive silicon gasket button 110 not only transmits an electrical signal but also provides ease of mechanical coupling by elasticity of a silicon material. In addition, since the mechanical gap between the touched portion and the sensing portion is eliminated by the conductive silicon gasket button 110, there is an advantage in that malfunction due to the gap is reduced. Furthermore, the housing of the capacitive touch sensor module 100 is completed by the front plate 150, the guide case 140, and the moisture pad 180 made of a transparent or semi-transparent moisture proof material. Moisture in the inside of the 100) does not occur. Therefore, according to the capacitive touch sensor module according to the embodiment of the present invention, it is possible to prevent malfunction due to moisture, condensation, and the like.

1 is an exploded perspective view of a capacitive touch sensor module according to an embodiment of the present invention;

2 is a cross-sectional view taken along line A-A 'of integrally manufactured conductive silicon gasket buttons; And

FIG. 3 is a cross-sectional view of the capacitive touch sensor module of FIG. 1 after being cut along the line B-B '. FIG.

Explanation of reference numerals for main parts of the drawings

100: capacitive touch sensor module

110: conductive silicon gasket button

120: button guide plate

130: touch key PCB assembly

132: ring-shaped groove

140: guide case

150: front panel

125, 135, 145: screw holes

160: screw

170: double-sided adhesive plate

122, 142, 172: through hole

180: moisture proof pad

Claims (7)

A touch key PCB assembly including a driving circuit and a touch pad capable of driving a capacitive type; A plurality of conductive silicon gasket buttons made integrally to be connected to the touch pad, each separated by an insulating material portion; A button guide plate having first through holes into which the plurality of conductive silicon gasket buttons are fitted, and being in close contact with the touch key PCB assembly; A guide having a second through hole corresponding to the first through holes of the button guide plate so that the plurality of conductive silicon gasket buttons are fitted, and fixing the edge of the resultant product in which the plurality of silicon gasket buttons are fitted to the button guide plate; A case; A front plate bonded to one surface of the guide case; A moisture proof pad installed on an opposite side of a surface where the touch key PCB assembly and the plurality of conductive silicon gasket buttons contact each other; Capacitive touch sensor module having a. delete The capacitive touch sensor module of claim 1, wherein a bottom surface of the insulating material portion connecting the conductive silicon gasket buttons is higher than a bottom surface of the conductive silicon gasket button. The capacitive touch sensor module of claim 1, wherein the moisture proof pad is made of a rubber material including an adhesive on a surface contacting the touch key PCB assembly. The capacitive touch sensor module of claim 1, wherein the front plate is adhered to one surface of the guide case to be moistureproof. The double-sided adhesive plate of claim 5, wherein a double-sided adhesive plate having third through holes through which the plurality of conductive silicon gasket buttons pass is positioned between the front plate and one surface of the guide case, whereby the front plate is one surface of the guide case. Capacitive touch sensor module, characterized in that attached to. The capacitive touch sensor module according to claim 1, wherein the button guide plate is made of rubber.

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