KR200427967Y1 - Touch-sensor pad - Google Patents

Abstract

The present invention relates to a touch sensor pad, comprising: a circuit including a connection portion connected to a touch portion and an external sensor for sensing a touch signal by etching a metal film laminated or deposited on an insulating film by etching. After forming a circuit pattern consisting of a portion or by plating or depositing a non-ferrous metal on an insulating film to form the circuit pattern, a carbon protective film is printed on the touch portion and the connecting portion, and then an insulating protective film is formed on the circuit pattern. It is manufactured through a process.

According to the present invention, compared to the conventional touch sensor pads in which silver paste made by mixing silver powder with synthetic resin or the like is directly printed on an insulating film to form a circuit pattern, the residual resistance is relatively low, power consumption is low, and current is reduced. It is possible to manufacture a touch sensor pad having a high flow rate and a signal transmission speed, and excellent durability against heat and temperature as well as bending and bending.

Touch Sensor Pads, Etch, Deposition, Plating, Resist Ink, Cover Layer Patterns

Description

Touch sensor pad {TOUCH-SENSOR PAD}

1 is a process chart showing a manufacturing method of a touch sensor pad according to a first embodiment of the present invention.

2 is a process chart showing a manufacturing method of a touch sensor pad according to a second embodiment of the present invention.

3 is a plan view of a touch sensor pad according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: insulating film 11a: an area where no circuit pattern is formed

20: thin metal film 20a: portion where the cover layer pattern is not printed

30,30a: cover layer pattern 40: circuit pattern

41: touch part 42: connection part

41a, 42a: carbon protective film 42b: guide film

50: insulating protective film 60: double-sided tape

The present invention relates to a touch sensor pad, and more particularly, to a touch sensor pad used as a key pad for various home appliances, such as an electric kettle, an electric rice cooker, a refrigerator, an air conditioner, or various communication terminals such as a mobile phone, a PDA, a computer, and the like. will be.

A touch sensor pad used as a key pad of various communication terminals such as a conventional white home appliance, a slim mobile phone, a slim PDA, a computer, and the like is a touch part and the touch part on an insulating film made of a nonconductor such as PET or acrylic. A circuit pattern composed of a circuit part including a connection part connected to an external sensor for sensing a touch signal is printed with silver (Ag) paste, and then manufactured by forming an insulating protective film on the circuit pattern.

The touch sensor pad manufactured as described above operates by an electrostatic amount method that recognizes an amount of static electricity generated in a human body. Specifically, when a user touches a touch part of the circuit pattern with a finger while connected to the external sensor, The amount of static electricity of the touch portion changes, and at this time, the external sensor senses a signal of changing the amount of static electricity of the touch portion and outputs a signal for controlling the operation of the white household appliance or the portable communication terminal.

Conventional touch sensor pads that operate as described above are typically touched when the user touches a finger in close proximity to the touch portion of the printed pattern even when attached to a plastic or acrylic of 3 mm or less or glass of 5 mm or less. The amount of static electricity changes.

However, the conventional touch sensor pad manufactured as described above has a disadvantage in that the residual resistance is high because the circuit pattern is formed by using silver paste made by mixing silver powder with synthetic resin, etc., and as a result, current flow and signal transmission. There is a problem of slowing down.

In addition, due to the characteristics of the product when applied to the frequent winding (winding) and bending (bending) part, there is a disadvantage that the durability of the synthetic resin coating film is unstable, so that the circuit portion of the circuit pattern easily damaged during assembly or use by the user, In particular, there is a problem that the manufacturing cost is increased according to the amount of the silver powder to be blended in the synthetic resin.

The present invention is to solve the above-mentioned conventional problems, the first object of the present invention is to etch the metal thin film laminated or deposited on the insulating film is connected to the touch portion and the touch portion and the touch signal detection After forming a circuit pattern consisting of a circuit portion including a connection portion connected to an external sensor for manufacturing a touch sensor pad manufactured by printing a carbon protective film on the touch portion and the connection portion, and then forming an insulating protective film on the circuit pattern To provide.

A second object of the present invention is to print a cover layer pattern with a water-soluble metallization resist ink on an insulating film, and then plate or deposit a non-ferrous metal on an area where the cover layer pattern is not printed. After forming a circuit pattern consisting of a circuit portion including a connection portion connected to the portion and connected to an external sensor for sensing a touch signal, after removing the water-soluble metallization resist ink, a carbon protective film is printed on the touch portion and the connection portion Next, to provide a touch sensor pad manufactured by forming an insulating protective film on the circuit pattern.

In order to achieve the object of the present invention as described above, the first embodiment of the touch sensor pad according to the present invention, a process for forming a metal thin film by depositing or depositing any one of copper, silver, gold, aluminum on an insulating film and; Printing and drying the cover layer pattern using an etching resist ink; Spraying an etchant to the metal thin film to corrode the remaining portions except for the cover layer pattern to peel off from the insulating film; By removing the cover layer pattern and the residual etchant using an aqueous alkaline solution, a circuit pattern including a touch part and a circuit part including a connection part connected to the touch part and connected to an external sensor for sensing a touch signal is formed. Drying and drying; Printing and drying a carbon protective film on the touch portion or the connection portion of the circuit pattern; And printing and drying an insulating protective film on the circuit pattern and on an area of the upper surface of the insulating film where the circuit pattern is not formed.

According to a second embodiment of a touch sensor pad according to the present invention, a process of printing and drying a cover layer pattern by using a water-soluble metallization resist ink; Plating or depositing any one of copper, silver, gold, and aluminum on an area where the cover layer pattern is not printed on the upper surface of the insulating film is connected to the touch part and the touch part and connected to an external sensor for sensing a touch signal. Forming a circuit pattern composed of a circuit portion including a connection portion; Washing the cover layer pattern with hot water to remove the cover layer pattern, and then drying the circuit pattern; Printing and drying a carbon protective film on the touch portion or the connection portion of the circuit pattern; And printing and drying an insulating protective film on the circuit pattern and on an area of the upper surface of the insulating film where the circuit pattern is not formed.

Hereinafter, with reference to the accompanying drawings a first embodiment of the present invention will be described in more detail.

1 is a process chart showing a manufacturing method of a touch sensor pad according to a first embodiment of the present invention.

Referring to FIG. 1, first, a metal thin film 20 is formed by stacking or depositing any one of copper, silver, gold, and aluminum on an insulating film 10 prepared in a specific size and shape according to a required specification (FIG. 1). See A).

After the metal thin film 20 is formed on the insulating film 10, the cover layer pattern 30 is printed and dried on the metal thin film 20 by using an etching resist ink (see FIG. 1B). . In this process, the cover layer pattern 30 is preferably heated or dried by ultraviolet (UV).

After the cover layer pattern 30 is printed on the metal thin film 20, an etchant is sprayed onto the metal thin film 20 to corrode the remaining portions 20a except for the cover layer pattern 30. It peels from the insulating film 20 (refer C of FIG. 1).

As described above, the remaining portion 20a of the metal thin film 20 of the insulating film 10 except for the portion where the cover layer pattern 30 is printed, that is, the portion where the cover layer pattern 30 is not printed is peeled off. Then, by using an aqueous alkali solution (for example, 1-3% aqueous sodium hydroxide solution) by washing and removing the cover layer pattern 30 of the etching resist ink and the etching agent remaining on the insulating film 10 Forming a circuit pattern 40 including a touch part 41 and a circuit part including a connection part 42 connected to the touch part 41 and an external sensor (not shown) for detecting a touch signal, Dry (see D in FIG. 1). In this case, the upper surface of the insulating film 10 is divided into the circuit pattern 40 and the region 11a where the circuit pattern 40 is not formed.

After the circuit pattern 40 is formed, the carbon protective films 41a and 42a are then printed and dried on the touch portion 41 or the connection portion 42 of the circuit pattern 40 (see FIG. 1E). . In this process, the carbon protective film 41a of the touch portion 41 may not be printed if necessary according to the type of product to which the touch sensor pad according to the present invention is applied. For example, when the touch sensor pad is applied to a white household appliance such as an electric kettle, an electric rice cooker, a refrigerator, an air conditioner, or the like, it is preferable not to print the carbon protective film 41a of the touch portion 41. When the touch sensor pad is applied to various communication terminals such as the above, it is preferable to print the carbon protective film 41a of the touch portion 41.

After the carbon protective films 41a and 42a are printed on the touch portion 41 or the connection portion 42 of the circuit pattern 40, the circuit is finally formed on the circuit pattern 40 and the upper surface of the insulating film 20. As the insulating protective film 50 is printed and dried on the region 20a where the pattern 40 is not formed, the touch sensor pad according to the present invention is manufactured (see FIG. 1F).

The double-sided tape 60 for attaching the touch sensor pad to the white household electrical appliances or various communication terminals as described above is additionally attached on the insulating protective film 50 of the manufactured touch sensor pad (G of FIG. 1). Reference).

Hereinafter, with reference to the accompanying drawings a second embodiment of the present invention will be described in more detail.

2 is a process chart showing a manufacturing method of a touch sensor pad according to a second embodiment of the present invention.

The manufacturing method of the touch sensor pad according to the second embodiment of the present invention is compared to the manufacturing method of the touch sensor pad according to the first embodiment described with reference to FIG. 40) the process of forming is different.

First, the cover layer pattern 30a is printed and dried using a water-soluble metallization resist ink on the insulating film 10 prepared in a specific size and shape according to a required standard (see FIG. 2A). As the water-soluble metallization resist ink used in this process, it is preferable to use the trade name KP-1000 manufactured by KTS Co., Ltd. of Korea.

After the cover layer pattern 30a is printed on the insulating film 10, copper, silver, and gold may be applied to an area 11 of the upper surface of the insulating film 10 where the cover layer pattern 30a is not printed. And a circuit part including a connection part 42 connected to the touch part 41 and the touch part 41 and connected to an external sensor (not shown) for sensing a touch signal by plating or depositing any one of aluminum. The circuit pattern 40 comprised is formed (refer to B of FIG. 2).

After the circuit pattern 40 is formed, the cover layer pattern 30a made of a water-soluble metallization resist ink is then washed with hot water to remove the circuit pattern 40 and then dried (see FIG. 2C). . In this case, the upper surface of the insulating film 10 is divided into a region 11a where the circuit pattern 40 and the circuit pattern 40 are not formed, that is, an area where the cover layer pattern 30a has been printed.

After the circuit pattern 40 is formed, the carbon protective films 41a and 42a are then printed and dried on the touch portion 41 or the connection portion 42 of the circuit pattern 40 (see D in FIG. 2). . In this process, the carbon protective film 41a of the touch portion 41 may not be printed if necessary according to the type of product to which the touch sensor pad according to the present invention is applied. For example, when the touch sensor pad is applied to a white household appliance such as an electric kettle, an electric rice cooker, a refrigerator, or an air conditioner, it is preferable not to print the carbon protective film 41a of the touch portion 41. When the touch sensor pad is applied to various communication terminals such as the above, it is preferable to print the carbon protective film 41a of the touch portion 41.

After the carbon protective films 41a and 42a are printed on the touch portion 41 or the connection portion 42 of the circuit pattern 40, the circuit is finally formed on the circuit pattern 40 and the upper surface of the insulating film 20. As the insulating protective film 50 is printed and dried on the region 11a where the pattern 40 is not formed, the touch sensor pad according to the present invention is manufactured (see FIG. 2E).

The double-sided tape 60 for attaching the touch sensor pad to the white household appliances or various communication terminals as described above is additionally attached on the insulating protective film 50 of the touch sensor pad manufactured as described above (FIG. 2F). Reference).

3 is a plan view of a touch sensor pad manufactured by the method for manufacturing the touch sensor pad according to the first and second embodiments of the present invention, a touch applicable to a white household appliance such as an electric kettle, an electric rice cooker, a refrigerator, an air conditioner, or the like; The sensor pad is shown.

Referring to FIG. 3, a circuit part including a touch part 41 and a circuit part including a connection part 42 connected to the touch part 41 and an external sensor (not shown) for detecting a touch signal. The pattern 40 can be confirmed.

In addition, a state in which the carbon protective film 42a is printed on the connection portion 42 of the circuit pattern 40 and a guide film 42b which serves as a guide when connecting the connection portion 42 to the external sensor may include the connection portion ( You can check the state attached to 42).

For reference, the Applicant has produced a touch sensor pad having a shape as shown in FIG. 3 by a method of manufacturing a touch sensor pad according to the present invention and a method of manufacturing a touch sensor pad using a conventional silver paste, and the electrical characteristics thereof. And as a result of measuring the durability, the following differences were confirmed.

1. Measurement result of circuit resistance (Ω)

As a result of measuring whether the wire resistance of 10 mm (length) x 1.0 mm (width) is satisfied with the condition of 1.5 Ω or less, the conventional touch sensor pad shows an average circuit resistance of 1.1 Ω, whereas the touch sensor according to the present invention is It was found that the pads exhibited a circuit resistance of 0.23Ω on average, which is significantly lower than that of the conventional art.

2. Result of measuring resistance change rate (%) after bending

Fold 10 mm (length) x 1.0 mm (width) wire in half, press 5 minutes on the folded part for about 1 minute, and satisfy the condition of 30% or less when measuring the resistance change rate. As a result of the measurement, it was found that the conventional touch sensor pads exhibited an average value of 24% change in resistance value, while the touch sensor pads according to the present invention showed a significantly lower average change rate of 1.7% than conventional ones.

3. Measurement result of adhesion of circuit pattern

As a result of measuring whether the resistance change rate measured after the coating film peeling test using a tape satisfies a condition within ± 30%, the conventional touch sensor pad shows an average value change rate of 21%, whereas the touch according to the present invention It was found that the sensor pads exhibited a significantly lower rate of change in resistance value of 0.0% than the conventional one.

4. My environmental test results

After 20 hours at 25 ° C., 20 hours at 70 ° C., and 20 hours at 95% humidity, it was confirmed that the measurement conditions of 1, 2, and 3 were satisfied. While at least one of the measurement conditions is not satisfied, it can be seen that the touch sensor pad according to the present invention satisfies the measurement conditions of all 1, 2, and 3 items.

The touch sensor pad according to the present invention described above is not limited to the above-described embodiment, and those skilled in the art to which the present invention pertains without departing from the gist of the present invention claimed in the utility model registration claims below. If anyone has a technical spirit of the present invention to the extent that anyone can vary and implement.

According to the present invention as described above, compared to the conventional touch sensor pad formed by combining the silver powder with a synthetic resin or the like directly printed on the insulating film to form a circuit pattern, the residual resistance is relatively low, and the power consumption is low. In addition, it is possible to manufacture a touch sensor pad having a high speed of current flow and a signal transmission speed, and excellent durability against heat and temperature as well as winding and bending.

Claims (2)

Stacking or depositing any one of copper, silver, gold, and aluminum on the insulating film to form a metal thin film; Printing and drying the cover layer pattern using an etching resist ink; Spraying an etchant to the metal thin film to corrode the remaining portions except the cover layer pattern of the etching resist ink to peel from the insulating film; It consists of a circuit part including a touch part and a connection part connected to the touch part and connected to an external sensor for detecting a touch signal by washing and removing the cover layer pattern of the etching resist ink and the residual etchant using an aqueous alkali solution. Forming and drying a circuit pattern to be formed; Printing and drying a carbon protective film on the touch portion or the connection portion of the circuit pattern; And Printing and drying an insulating protective film on the circuit pattern and on an area of the upper surface of the insulating film where the circuit pattern is not formed; Touch sensor pad, characterized in that the manufacture. Printing and drying a cover layer pattern on the insulating film by using a water-soluble metallization resist ink; Plating or depositing any one of copper, silver, gold, and aluminum on a region where the cover layer pattern of the water-soluble metallization resist ink is not printed on the upper surface of the insulating film to be connected to the touch portion and the touch portion, and detecting a touch signal. Forming a circuit pattern consisting of a circuit portion including a connection portion connected to an external sensor for; Washing the cover layer pattern of the water-soluble metallization resist ink with hot water to remove the cover layer pattern, and then drying the circuit pattern; Printing and drying a carbon protective film on the touch portion or the connection portion of the circuit pattern; And Printing and drying an insulating protective film on the circuit pattern and on an area of the upper surface of the insulating film where the circuit pattern is not formed; Touch sensor pad, characterized in that the manufacture.

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