KR101167041B1 - Capacitive touch sensor module - Google Patents

Abstract

PURPOSE: An electrostatic capacity sensor module is provided to prevent signal interference between contact keys and to easily combine the contact keys to a switch printed circuit board and to maintain an initial establishment state of the contact keys. CONSTITUTION: An electrostatic capacity sensor uses an electrostatic capacity sensor chip of multi-channels including 4channels, 8channels, and 16channels or 16electrostatic capacity sensor chips having one channel. A connection pattern is formed at the rear side of a switch printed circuit board(11) so that each induction electrode is connected to the electrostatic capacity sensor one on one. A key holder(20) comprises a lower holder layer(21) of elastic material and an upper holder layer(22) of non-elastic material. A contact board unit is formed into the same side with a key seating hole. A connection shaft has the area smaller than the contact board unit.

Description

Capacitive Touch Sensor Module

The present invention relates to a capacitive sensor module, and more particularly, to a capacitive sensor module installed on an operation panel for detecting an operation state by using a principle of changing capacitance when a user contacts (including indirect contact). .

An apparatus that operates using electricity (hereinafter, referred to as an "electric apparatus") has an apparatus body which performs the inherent function of the apparatus, and an operation panel provided in the apparatus body.

The control unit for controlling the function of the apparatus main body is implemented in the apparatus main body PCB.

The operation panel has an operation panel body in which a component space is formed and an operation switch provided on the operation panel body.

A plurality of operation switches may be provided.

When each operation switch is operated, an operation signal is input to the control unit of the apparatus main body, and the apparatus main body performs a function corresponding to the operation signal of each operation switch according to a pre-written program.

As a method for implementing an operation switch having such a function, a method of using a capacitive sensor module that detects an operation state by using a principle of changing capacitance when a user contacts (including indirect contact) has been proposed.

FIG. 8 is a combined perspective view of a conventional capacitive sensor module, and FIG. 9 is a rear view of the switch PC ratio shown in FIG.

The conventional capacitive sensor module, as shown in these figures, the switch PC 111, a plurality of induction electrodes 112 formed on the back of the switch PC 111 and the electrostatic coupled to the switch PC 111 The capacitive sensor 113, the connection pattern 113 formed on the switch PCB 111, the contact key 130 of the conductive material coupled to the front surface of the switch PCB 111, and in front of each contact key 130 It has the contact plates 141 provided one by one.

The induction electrode 112 is formed to form a lattice having four horizontal lattice points and four longitudinal lattice points.

The capacitive sensor 113 is comprised of 16 pieces.

The capacitive sensor 113 may be implemented using a capacitive sensor chip of a plurality of channels, such as 4 channels, 8 channels, 16 channels, or 16 capacitive sensor chips having one channel. In the present specification, the capacitive sensor 113 is used to mean each channel of the capacitive sensor chip.

The connection pattern 113 is formed on the rear surface of the switch PCB 111 so as to connect each induction electrode 112 to the capacitive sensor 113 one to one. 9, most of the connection pattern 115 is omitted.

The contact key 130 is implemented in the form of a coil spring that forms the overall gear shape, and is fixed to the switch PCB 111 by inserting the lower end into the fixing hole formed in the switch PCB 111.

The contact plate 141 is provided to correspond to each contact key 130 one-to-one.

Each contact plate 141 is installed to access a corresponding contact key 130.

The contact plate 141 is installed to accumulate the return elastic force while approaching the contact key 130.

The operation of the conventional capacitive sensor module having such a configuration will be described with reference to FIG. 10 as follows.

First, a conventional capacitive sensor module is installed inside the operation panel body 201 so that the contact plate 141 is exposed to the outside of the operation panel body 201 (see FIG. 3). Here, the installation of the capacitive sensor module is made so that each capacitive sensor 113 is electrically connected to the device body PCB.

Accordingly, the touch detection signal (which becomes an operation signal of the operation switch) from each capacitive sensor 113 may be output and input to the controller of the apparatus main body.

Next, the user manipulates the contact plate 141 to press the contact key 130 corresponding to the function to be performed in the apparatus main body.

When the contact key is pressed, the capacitive sensor corresponding to the pressed contact key detects a change in capacitance generated before and after pressing and outputs a touch detection signal to the controller of the apparatus main body.

However, according to the conventional capacitive sensor module, since there is no dielectric material other than air between the contact keys 130, there is a problem that signal interference occurs between adjacent contact keys 130, thereby causing a malfunction.

In addition, since the contact key 130 is implemented in the form of a coil spring, it is difficult to couple the contact key 130 to the switch PC 111.

In addition, since the contact key 130 is implemented in the form of a coil spring, if the pressing operation through the contact plate 141 is repeated or an external impact is applied, the initial installation state of the contact key 130 cannot be stably maintained. there was.

Accordingly, an object of the present invention is to provide a capacitive sensor module that can prevent signal interference between contact keys, can easily couple the contact keys to the switch PCB, and can stably maintain the initial installation state of the contact keys. will be.

The object is, according to the present invention, the switch PCB, a plurality of induction electrodes formed on the back of the switch PCB, the capacitive sensor coupled to the switch PCB, and each of the induction electrodes to connect the capacitive sensor A capacitive sensor module having a connection pattern formed on a switch PCB and a contact key made of a conductive material coupled to a front surface of the switch PCB so as to face each induction electrode, wherein the contact key is supported on a front surface of the switch PCB. Have wealth; The capacitive sensor is made of an insulating material, the key seating hole is formed along the height direction, and the key holder is installed in the front of the switch PCB so that each contact key is supported on the inner peripheral surface of the key seating hole Achieved by the module.

Here, the key holder is formed to form a plate-like body so that the key holder can be easily manufactured and the external shock transmitted to the contact key through the key holder is penetrated, and the key receiving hole is arranged in the same shape as the contact key. It is preferable that it is formed.

In order to stably maintain the initial installation state of the key holder, the key holder has a lower holder layer of elastic material and an upper holder layer of inelastic material, and the lower holder layer is preferably installed to contact the switch PCB.

Further, in order to stably maintain the initial installation state of the key holder, it is preferable that the key holders are formed one by one with the same diameter over the entire length section.

In addition, the contact key is connected to the contact plate portion and the support plate portion formed in the same size as the key seating hole so that the contact area of the contact key with respect to the inner peripheral surface of the key seating hole so that the key holder can stably support the contact key. It further comprises a connecting shaft, the contact plate is installed to be supported on the inner peripheral surface of the key seating hole; The support plate is preferably formed to have a smaller area than the contact plate and coupled to the lower end of the connecting shaft so as to be parallel to the contact plate.

Therefore, according to the present invention, by forming a contact key to have a support plate portion that is supported on the front of the switch PCB, each contact key is configured to include a key holder formed with a key seat hole is supported on the inner peripheral surface, thereby preventing signal interference between the contact keys The contact key can be easily coupled to the switch PCB and the initial installation state of the contact key can be stably maintained.

1 is a perspective perspective view of a capacitive sensor module according to an embodiment of the present invention;
2 is an exploded perspective view of a capacitive sensor module according to an embodiment of the present invention;
3 is a perspective view of the contact key shown in FIG.
4 is a rear view of the switch PC ratio shown in FIG. 2;
Figure 5 is an installation state of the capacitive sensor module according to an embodiment of the present invention,
6 is an exploded perspective view of a capacitive sensor module according to another embodiment of the present invention;
Figure 7 is an installation state of the capacitive sensor module according to another embodiment of the present invention,
8 is a perspective view of a combination of the conventional capacitive sensor module,
9 is a rear view of the switch PC ratio shown in FIG. 8;
10 is an operation state diagram of a conventional capacitive sensor module.

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

1 is a combined perspective view of a capacitive sensor module according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of a capacitive sensor module according to an embodiment of the present invention, and FIG. 3 is a contact key shown in FIG. 4 is a rear view of the switch PCB shown in FIG.

Capacitive sensor module according to an embodiment of the present invention, as shown in these figures, the switch PCB 11, a plurality of induction electrodes 12 formed on the back of the switch PCB 11, the switch PCB ( 11 of the capacitive sensor 13 coupled to the switch PCB 11, the connection pattern 15 formed on the switch PCB 11, the key holder 20 standing upright in front of the switch PCB 11, and the switch PCB 11 It has a contact key 30 of conductive material bonded to the front surface.

The induction electrode 12 is formed to form a lattice having four horizontal lattice points and four longitudinal lattice points.

The capacitive sensor 13 is comprised of 16 pieces.

The capacitive sensor 13 may be implemented using a capacitive sensor chip having a plurality of channels such as 4 channels, 8 channels, 16 channels, or 16 capacitive sensor chips having one channel. In this specification, the capacitive sensor 13 is used to mean each channel of the capacitive sensor chip.

The connection pattern 15 is formed on the rear surface of the switch PCB 11 so as to connect each induction electrode 12 to the capacitive sensor 13 one-to-one. In FIG. 4, most of the connection patterns 15 are omitted.

The key holder 20 has a lower holder layer 21 of elastic material and an upper holder layer 22 of inelastic material.

The lower holder layer 21 is formed so that a portion of the key mounting hole 23 is arranged in the same shape as the contact key 30.

The lower holder layer 21 is made of a material having insulation and elasticity such as polyurethane.

The upper holder layer 22 is formed so that the remaining sections of the key seating hole 23 are arranged in the same shape as the contact key 30.

The upper holder layer 22 is made of a material having insulation and inelasticity such as acrylic, and is bonded to the lower holder layer 21 by a method using an adhesive.

In the key holder 20 having such a configuration, the key seating holes 23 are aligned with the induction electrode 12, each contact key 30 passes through the key seating holes 23, and the lower holder layer 21 has a switch PCB ( 11) is installed to contact.

The key holder 20 is installed such that the lower holder layer 21 is slightly compressed between the switch PCB 11 and the operation panel body 201.

The contact key 30 has a contact plate portion 31 having a circular cross section, a cylindrical connecting shaft 32 standing up at the center of the bottom surface of the contact plate portion 31, and a connecting shaft 32 parallel to the contact plate portion 31. It has a support plate portion 33 of a circular cross-section coupled to the lower end of.

The contact plate part 31 is formed in the same size as the key seating hole 23.

The connecting shaft 32 is formed to have a smaller area than the contact plate portion 31.

The support plate 33 is formed to a size that does not leave the detection area of the induction electrode 12.

The contact key 30 having such a configuration is such that the contact plate portion 31 is supported on the inner circumferential surface of the key seating hole 23, and the support plate portion 33 is coupled to the front surface of the switch PCB 11 by a double-sided tape 14 or the like. Is installed. The installation position of the contact key 30 is selected as an area facing each induction electrode 12.

The contact key 30 is made of a conductive material such as aluminum.

Referring to Figure 5 the operation of the capacitive sensor module according to an embodiment of the present invention having such a configuration as follows.

First, the capacitive sensor module according to an embodiment of the present invention is installed inside the manipulation panel body 201 so that the contact key 30 is exposed to the outside of the manipulation panel body 201. And the installation of the capacitive sensor module is made so that a portion of the contact plate 31 is supported by the operation panel body 201, each capacitive sensor 13 is electrically connected to the device body PCB.

Accordingly, the touch detection signal (which becomes the operation signal of the operation switch) from each capacitive sensor 13 may be output and input to the controller of the apparatus main body.

Next, the user touches the contact key 30 corresponding to the function to be performed in the apparatus body.

When the contact key is touched, the capacitive sensor corresponding to the touched contact key detects a change in capacitance generated before and after contact and outputs a touch detection signal to the controller of the apparatus main body.

Meanwhile, in the above-described embodiment, the key holder 20 is configured for all of the contact keys 30, but as shown in FIG. 6, the key holder 20 is configured to correspond to the contact key 30 one-to-one. The present invention can be practiced.

6 is an exploded perspective view of the capacitive sensor module according to another embodiment of the present invention, Figure 7 is an installation state diagram of the capacitive sensor module according to another embodiment of the present invention.

The capacitive sensor module according to another embodiment of the present invention, as shown in Figure 6, the switch PCB 11 having the same structure and function as in the case of the capacitive sensor module according to an embodiment of the present invention, In addition to the induction electrode 12, the capacitive sensor 13, the connection pattern 15, and the contact key 30, the contact keys 30 on the front of the switch PC 11 are connected to the contact keys 30 one-to-one. It has a key holder 20 'which is erected so as to correspond.

6 is shown using the same numerals for components having the same structure and function as the capacitive sensor module according to the embodiment of the present invention.

In each key holder 20 ', the key seating holes 23' are formed one by one with the same diameter over the entire length section.

The key holder 20 'is made of an insulating material such as ABS resin and polycarbonate.

The capacitive sensor module according to another embodiment of the present invention having such a configuration has an operation panel body such that the contact key 30 and the key holder 20 'are exposed to the outside of the operation panel body 201 as shown in FIG. It is installed inside 201. And the installation of the capacitive sensor module is made so that the end of the key holder 20 'is supported by the operation panel body 201, each capacitive sensor 13 is electrically connected to the device body PCB.

According to the embodiment of the present invention as described above, the contact key 30 is formed to have a support plate portion 33 supported on the front surface of the switch PCB 11 and the key seat hole that each contact key 30 is supported on the inner peripheral surface By including the key holder 20 in which the 23 is formed, it is possible to prevent signal interference between the contact keys 30 and the contact key 30 can be easily coupled to the switch PC 11 and the contact key ( It is possible to maintain the initial installation state of 30) stably.

And by forming the key holder 20 to form a plate-like body, it is easy to manufacture the key holder 20 and to reduce the external shock transmitted to the contact key 30 through the key holder 20 (key holder and The contact area between the switch PCB and the contact area between the key holder and the inner surface of the control panel body increases.

In addition, the key holder 20 is formed to have the lower holder layer 21 of the elastic material and the upper holder layer 22 of the inelastic material, thereby stably maintaining the initial installation state of the key holder 20 (the key holder is the lower holder layer). It is possible to reduce the external shock transmitted to the contact key 30 through the key holder 20, which is installed to be slightly compressed between the switch PCB and the operation panel body.

In addition, by configuring the key holder 20 'so that the key seating holes 23' are formed one by one with the same diameter over the entire length section, the initial installation state of the key holder 20 'can be stably maintained (the key holder has the end of the operation panel Can be installed to support the body).

In addition, by forming the contact key 30 so as to further include a contact plate portion 31 formed in the same size as the key seating hole 23, and installed so that the contact plate portion 31 is supported on the inner peripheral surface of the key seating hole (23), The contact area of the contact key 30 with respect to the inner circumferential surface of the 23 is increased so that the key holder 20 can stably support the contact key 30.

11, 111: switch PC ratio 12, 112: induction electrode
13, 113: capacitive sensor 15, 115: connection pattern
20, 20 ', 120: key holder 21: lower holder layer
22: upper holder layer 30, 130: contact key
31: contact plate portion 32: connection
33: support plate portion 141: contact plate

Claims (5)

delete delete A switch PCB, a plurality of induction electrodes formed on the rear surface of the switch PCB, a capacitance sensor coupled to the switch PCB, a connection pattern formed on the switch PCB to connect the induction electrodes to the capacitance sensor, and The key is made of a conductive material coupled to the front surface of the switch PCB so as to face each induction electrode, and made of an insulating material, and a key seat hole is formed along a height direction, and the key key is supported on the inner peripheral surface of the key seat hole. In the capacitive sensor module having a key holder standing upright in front of the switch PCB so as to pass through the construction,
The contact key has a support plate portion supported on the front side of the switch PCB;
The key holder is formed so as to form a plate-like body, the key seating hole is formed so as to be arranged in the same shape as the contact key, and has a lower holder layer of an elastic material and an upper holder layer of an inelastic material, the lower holder layer is the Capacitive sensor module, characterized in that installed to contact the switch PCB. The method of claim 3,
The key holder is a capacitive sensor module, characterized in that the key seating hole is formed one by the same diameter over the entire length section. The method according to claim 3 or 4,
The contact key further comprises a contact plate portion having a same size as the key seating hole and a connecting shaft connecting the contact plate portion and the support plate portion, the contact plate portion being installed to be supported on an inner circumferential surface of the key seating hole;
The support plate portion is coupled to the lower end of the connecting shaft to be parallel to the contact plate portion and the capacitive sensor module, characterized in that it is formed to have a smaller area than the contact plate portion.

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