KR102181290B1 - Operating pannel included emitting type capacitive overlay touch input unit - Google Patents

Abstract

The present invention uses two sheets of transparent film (2) (6) and an inserted injection resin to collectively and integrally form the operation panel 100 including the capacitive dimming type touch input unit (A) by insert injection molding method. The touch input unit (A) area including the printed circuit layer (8) is formed to be transparent while making the connection with the external circuit unit electrically connected to the printed circuit layer of the touch input unit (A) good. However, at the location of the capacitive dimming type touch input unit (A) on the heat-resistant second transparent film (6), it has 85 to 95% transmittance and an average sheet resistance of 40 to 105 Ω/sq by printing using transparent conductive ink, The transparent printed circuit pattern part 30 including the transparent electrode 8a of is printed on the placement position of the capacitive dimming type touch input part A to form an information identifier button such as a letter forming the skin surface of the touch input part A It is configured to have excellent information identification by allowing the light for backlight to shine through (20).

Description

Operation panel with capacitive dimming type touch input unit {OPERATING PANNEL INCLUDED EMITTING TYPE CAPACITIVE OVERLAY TOUCH INPUT UNIT}

The present invention relates to a method of manufacturing an operation panel, and in particular, an operation panel including a capacitive dimming type touch input unit is integrally manufactured by insert injection molding, and an operation panel capable of information identification and dimming through a capacitive dimming type touch input unit. About.

These days, a membrane switch, which is an example of a means for connecting an electronic component and a user interface, is a touch-type input unit and is widely used in various fields including the automobile industry, electronic communication equipment, electronic measuring equipment, medical equipment, commercial products, and home appliances.

Membrane switches are designed and commercialized with a structure with a luxurious appearance, long life, and high moisture-proof properties. Such a membrane switch is a sheet type in which each conductor part (a part made of a conductive material that becomes the contact point of the switch) is formed on two plates, and the plates are stacked with spacers interposed so that the conductor parts face each other and a gap between the conductor parts is secured. Switch structure.

These membrane switches are mainly used in a pressure-sensitive touch type, and have a disadvantage in that the process is complicated and a lot of man-hours are required because a separate adhesive film is used to bond the circuit boards to each other.

Unexamined Patent Publication No. 10-2015-0084035 "Membrane switch and article made using the same"

Accordingly, an object of the present invention is to provide an operation panel including a capacitive dimming type touch input unit having excellent assembly workability and less work man-hours by manufacturing an operation panel having a capacitive dimming type touch input unit, but using film insert injection molding. .

Another object of the present invention is to provide an operation panel including a capacitive dimming type touch input unit that does not have a problem in maintaining flatness by preventing the operation panel from being bent even when insert injection molding is performed.

Another object of the present invention is a capacitive type dimming type touch input that allows the user to have excellent information identification by allowing the illumination light for the backlight to shine through an information identifier button such as a letter forming the surface of the capacitive touch input unit. It is to provide an additionally included operation panel.

The present invention according to the above object is, in an operation panel including a capacitive dimming type touch input unit, heat-resistant first and second transparent films (2) (6) having a thickness of 70 to 250 μm, and the first and second A translucent and insulating injection resin intermediate layer 12 having a thickness of 1.5 to 3 mm is insert injection molded between the transparent films 2 and 6 so that the surface electromotive force can be applied to the body part touched by the capacitive dimming type touch input unit A. It is formed as a capacitive type and includes an operation panel 100 having a capacitive dimming type touch input unit (A), but on the back of the heat-resistant first transparent film (2), the information identifier button 20 in the graphic image (4a) is capacitive type The graphic print layer 2 is formed at the position where the light-emitting touch input unit A is disposed, and the heat-resistant second transparent film 6 is cut to provide a base area of the printed circuit pattern, and the cut-formed heat-resistant second transparent film (6) A printed circuit layer (8) is printed on the top, but at the location of the capacitive dimming type touch input unit (A) on the heat-resistant second transparent film (6), it has a transmittance of 85 to 95% by printing using a transparent conductive ink. And 40~105Ω/sq. The transparent printed circuit pattern part 30 including the capacitive type transparent electrode 8a and has an average sheet resistance of 40~105Ω/sq is printed on the placement position of the capacitive type dimming type touch input unit A, and has a second heat resistance. A conductive opaque printed circuit pattern part 32 is formed by printing using opaque conductive ink in portions other than the capacitive dimming type touch input part on the transparent film 6, and the printed circuit layer of the heat-resistant second transparent film 6 ( 8) It is characterized in that a transparent protective coating layer 10 of urethane-based resin is formed on the top to protect the printed circuit layer 8 during insert injection molding.

In addition, the operation panel 100 including the capacitive dimming type touch input unit of the present invention includes a touch of the second transparent film 6 so that the information identifier button 20 of the first transparent film 2 can be illuminated. It is characterized in that the light emitting unit 34 is positioned below the arrangement area of the input unit A.

The present invention is an external circuit part electrically connected to the printed circuit layer of the touch input part by collectively manufacturing an operation panel including a capacitive dimming type touch input part using two sheets of transparent film and an inserted injection resin. The connection and assembly properties of are also good. In addition, there is an advantage of providing excellent information identification by allowing backlight light to shine through an information identifier button such as a character forming the surface of the touch input unit. In addition, the present invention has the advantage that the operation panel including the dimming type touch input unit has a certain thickness and maintains the flatness as it is without bending after the product is completed by injection molding.

1 is an exploded perspective view of an operation panel having a capacitive dimming type touch input unit according to an embodiment of the present invention;
2 is a cross-sectional view of an operation panel including a capacitive dimming type touch input unit shown in FIG. 1;
3 is a cross-sectional view of a touch operation state using a capacitive dimming type touch input unit of an operation panel manufactured according to the present invention;
4 and 5 are an exploded view and a combined configuration diagram of an operation panel including a touch input unit applied to a product according to an embodiment of the present invention;
6 is a partially enlarged perspective view of a capacitive dimming type touch input unit in an operation panel that is an insert injection molding of the present invention.

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

In the present invention, by inserting resin injection molding using two heat-resistant transparent films, an operation panel including a capacitive type and a dimming type touch input unit is manufactured integrally at a time (collectively). It is manufactured to be excellent in connection assembly. Moreover, the insert injection-molded operation panel according to the present invention is insert injection-molded, and even though the capacitive touch input part has a printed circuit layer, it is used for backlighting through an information identifier button such as a letter forming the skin surface of the touch input part. By implementing it so that light can shine, it gives users excellent information identification.

1 is an exploded perspective configuration diagram of an operation panel 100 including a capacitive dimming type touch input unit A according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view including the capacitive dimming type touch input unit A of FIG. It is a cross-sectional configuration diagram of the operation panel 100, and FIG. 3 is a cross-sectional view of an operation state using the capacitive dimming type touch input unit A of the operation panel 100 manufactured according to the present invention.

According to the present invention, the capacitive dimming type touch input unit A implemented in the operation panel 100 is a means for detecting whether a touch is based on an electromotive force through a human body.

A small amount of current is passed to the printed circuit pattern electrodes 8a at both ends of the touch input unit A (in the standby state), and then, as shown in the example shown in FIG. 3, the human hand 40 touches the touch input unit A. When touched, microscopic surface electromotive force flows to the human body, indicating a difference between a change in microcapacitance and a set value, through an external circuit electrically connected to the printed circuit layer 8 to check the input.

The operation panel 100 including the capacitive dimming type touch input unit (A) according to the embodiment of the present invention is a manufacturing method in which two sheets of heat-resistant transparent films (2) and (6) are used as a material and the number of work is reduced. The resin injection molding method is used so that the circuit unit for sensing the touch input can be manufactured at once.

4 and 5 are an exploded view and a combined configuration diagram of an operation panel 100 including a touch input unit A applied to an insert injection-molded product according to an embodiment of the present invention, and FIG. 6 is an insert injection molded product of the present invention. It is a partial enlarged perspective configuration diagram of the capacitive dimming type touch input unit A integrated in the phosphor operation panel 100.

In accordance with the present invention, the operation panel 100, which is an insert injection molded product in which the touch input unit A is integrally manufactured, is a graphic image 4a such as an information identifier button (2O in FIG. 6) on the touch input unit A viewed from the front. The first transparent film 2 formed on the back of the film with the graphic printing layer 4 included therein, and an injection resin intermediate layer having a thickness suitable for capacitive touch input (t2 in FIG. 6) as an intermediate material and having light-transmitting and insulating properties (12) And a transparent printed circuit pattern portion (30 in Fig. 6) including a transparent electrode 8a is formed at the location of the touch input unit A that becomes the back surface, and an opaque conductive pattern electrically connected to the transparent electrode 8a It is composed of a second transparent film 6 on which a printed circuit layer 8 is formed having a conductive opaque printed circuit pattern portion 32 including a line 8b.

In addition, the light emitting unit 34 such as an LED is positioned below the arrangement area of the touch input unit A of the second transparent film 6, so that the dimming light is emitted through the touch input unit A as the user touches the human body. By being illuminated, it is possible to easily identify the information of the information identifier button (20 in FIG. 6) formed on the surface.

With reference to FIGS. 1 to 6 together, a method of manufacturing an operation panel 100 including a capacitive dimming type touch input unit (A) by insert resin injection molding using two heat-resistant transparent films according to an embodiment of the present invention is described. It will be described in more detail as follows.

First, two heat-resistant transparent films that can be used for insert injection, that is, heat-resistant first and second transparent films 2 and 6 are provided.

The first and second transparent films 2 and 6 use heat-resistant PET (polyethylene terephthalate) resin or PC (polycarbonate) resin as a heat-resistant resin material capable of withstanding high temperatures during insert injection.

The first and second transparent films 2 and 6 will be used for insert injection molding according to the present invention.

In the first and second transparent films 2 and 6 used for insert injection molding, in the case of the first transparent film 2, the information identifier button of the capacitive dimming type touch input unit A (20 in FIG. 6) The graphic printing layer 4 having the graphic image 4a as a part of the graphic image 4a becomes an object to be printed.

In the case of the second transparent film 6, the printed circuit layer 8 including the transparent electrode 8a of the touch input unit A and the conductive pattern line 8b of the flexible printed circuit cable 9 is formed by printing. It becomes the target of becoming. The second transparent film 6 of the two transparent films 2 and 6 is shown in FIG. 4 to provide a base area on which conductive printed circuit patterns such as the electrode 8a and the conductive pattern line 8b are printed. And it is provided in the cut form as in FIG. At this time, the second transparent film 6 is a printed circuit pattern including a flexible printed circuit cable 9 protruding from the first transparent film 2 during injection molding, as can be seen in FIGS. 4 and 5. It is formed by cutting to provide the base area.

According to the present invention, the thickness t1 of the first and second transparent films 2 and 6 has a range of 70 to 250 μm. If the thickness of the first and second transparent films 2 and 6 is less than 70 μm, the graphic printed layer 4 of the first transparent film 2 or the printed circuit layer 8 of the second transparent film 6 The printing workability, such as wrinkles or not spreading properly during printing, decreases, and if the thickness t1 of the first and second transparent films 2 and 6 exceeds 250 μm, the first and second transparent films 2 ) Because the stress of (6) is too high, insert injection molding is not performed well and cracking during injection molding is also caused, which has a critical significance in the thickness range of 70-250㎛.

In addition, the first and second transparent films 2 and 6 are injection molding by resin injection to solve the problem that the operation panel 100 is not flat and bent to one side due to different coefficients of thermal expansion between constituent materials after product completion. For this purpose, it is preferable to configure the first and second transparent films 2 and 6 to have the same stretch ratio by heat, and to have the same thickness. For example, all of the first and second transparent films 2 and 6 may be made of PC resin, or all of the first and second transparent films 2 and 6 may be made of PET resin.

In addition, as another example to solve the problem that the operation panel 100 is not flat and bent to one side due to different coefficients of thermal expansion between the constituent materials after product completion, the first and second transparent films 2 and 6 are The thickness (t1) is equal to each other within the range of 70 to 250㎛, and the material of the first and second transparent films (2) and 6 is composed of different materials among PC resin or PET resin, and the first and second transparent films (2) The thickness (t2) of the injection resin intermediate layer 12 that combines (6) is 2~3mm, but it is made relatively thicker than the same material. This is because the first and second transparent films 2 and 6 are formed a little thicker than the thickness of the injection resin intermediate layer 12 than the thickness of the same material (1.5-3mm), thereby minimizing or solving the warpage problem. And the electromotive force on the surface of the human body part of the capacitive dimming type touch input unit A can still be extended.

On the back of the first transparent film 2 of the two transparent films prepared according to the present invention, that is, the first and second transparent films 2 and 6, the information identifier button of the touch input unit A (Fig. The second cut to have a base area on which a printed circuit pattern is formed to allow the graphic print layer 4 to be formed as a part of the graphic image 4a with 6 of 20), and to configure the circuit of the touch input unit (A). On the front surface of the transparent film 6, a pair of electrodes 8a for capacitive touch input in the touch input unit A and a conductive pattern line 8b connected to the pair of electrodes 8a are formed by screen printing using conductive ink. The included printed circuit layer 8 is formed by printing.

In particular, in the present invention, as shown in FIGS. 4 and 5, the printed circuit layer 8 is formed on the front surface of the second transparent film 6 provided in a cut form by including the tail protruding from the first transparent film 2 In the capacitive type dimming type touch input unit (A), a transparent printed circuit including 85-95% transmittance and 40-105 Ω/sq average sheet resistance by printing using transparent conductive ink and including a capacitive-type transparent electrode (8a) It is to form a transparent printed circuit layer having a pattern portion (30 in Fig. 6).

In the transparent printed circuit layer for the capacitive dimming type touch input unit (A), the transmittance of 85 to 95% is stable for light transmission formation of the transparent printed circuit pattern unit (30 in Fig. 6) such as the transparent electrode 8a, The average sheet resistance value of 40 to 105 Ω/sq is a range in which sheet resistance is reduced without increasing the thickness of the conductor, which affects the decrease in transmittance of the printed circuit layer 8.

The transparent conductive ink applied according to the present invention is composed of a conductive nanomaterial and a solvent, and the conductive nanomaterial includes a conductive polymer and graphene particles, ITO (InO ₂ :Sn, SnO ₂ :F) particles, silver nanofiber particles, metal It is composed of one of the mesh particles, and as a solvent, 80 to 99% by weight of water and 0.1 to 20% by weight of a co-solvent such as methanol or ethanol. In addition, the solvent may further contain a binder and a dispersant in trace amounts.

In addition, a conductive opaque printed circuit pattern part (32 in FIG. 6) by printing using an opaque conductive ink such as carbon paste or silver paste is formed in the part other than the capacitive dimming type touch input part (A) on the front surface of the second transparent film 6. Forming an opaque printed circuit layer having.

In addition, in the present invention, screen printing to protect the printed circuit layer 8 during insert injection molding on the printed circuit layer 8 of the second transparent film 6 having the transparent printed circuit layer and the opaque printed circuit layer together A heat-resistant transparent protective coating layer 10 is additionally applied by using a urethane-based coating agent in a manner or the like.

After preparing the first transparent film (2) having the graphic printing layer (4) and the cut second transparent film (6) having the printed circuit layer (8), the first and second transparent films in the cavity of the insert injection mold The film (2) (6) is injected and the first and second transparent film (2) (6) parts injected into the injection mold are in close contact with the inner wall surfaces of the cavities of both mold parts. At this time, the area of the information identification button 20 of the graphic printing layer 4 of the first transparent film 2 and the area of the transparent electrode 8a of the printed circuit layer 8 of the second transparent film 6 are aligned with each other. It must be aligned and only then the touch input unit A is provided.

In addition, in the insert injection mold, a flexible printed circuit cable 9 must be provided for electrical connection with an external circuit from the second transparent film 6 having a printed circuit layer 8, and for this purpose, a flexible printed circuit cable ( 9) For the prepared part, the tail protrudes from the cavity of the insert injection mold and extends to the outside so that it is exposed.

After inserting the first and second transparent films 6 into the insert injection mold, heat-resistant and insulating injection resin melts are placed in the cavity of the insert injection mold through the resin injection path formed in the insert injection mold. Inject into the spaced space between the films (2) and (6).

The injection resin melt is a light-transmitting insulating resin material, such as PC (Poly Carbonate) resin, ABS (acrylonitrile butadien styrene) resin, and PMMA (Poly Methyl Methacrylate) resin.

As shown in Figs. 1, 4, and 5 by injecting an insulating injection resin melt having a light-transmitting property into the spaced space between the first and second transparent films (2) and 6 seated in the cavity of the insert injection mold. After insert injection molding so that the injection resin intermediate layer 12 is formed, the operation panel 100 including the capacitive dimming type touch input unit A is obtained as in the embodiment of the present invention by demolding and cooling.

During insert injection molding, the intermediate layer of the first and second transparent films 2 and 6 and the injection resin intermediate layer 12 formed by injection of the injection resin melt serving as a binder are formed of a translucent or transparent resin material, and the thickness ( t2) is 1.5~3mm.

If the thickness of the injection resin intermediate layer 12 is less than 1.5 mm, the flow of the resin melt injected between the first and second transparent films 2 and 6 adhered to the inner wall of the mold cavity is insufficient, and thus the injection resin intermediate layer 12 ) Defects may occur in formation, and if the thickness (t2) of the injection resin intermediate layer 12 exceeds 3mm, the change in microcapacitance when contacting the human body is well detected in the implementation of the capacitive touch input unit (A). In doing so, there is a critical significance of the range.

In this way, the operation panel 100 having a capacitive dimming type touch input unit A according to an embodiment of the present invention made of an insert injection molding product is heat-resistant first and second transparent having a thickness of 70 to 250 μm (t1). Between the film (2) (6) and the first and second transparent films (2) (6), 1.5 to 3 mm thick (t2) so that the surface electromotive force can be applied to the body part touched by the capacitive dimming type touch input unit (A). The translucent and insulating injection resin intermediate layer 12 having) is formed by insert injection molding and has an operation panel 100 having a capacitive dimming type touch input unit (A), but on the back of the heat-resistant first transparent film (2) A graphic printing layer 2 having the information identifier button 20 in the graphic image 4a at the position of the capacitive dimming type touch input unit A is formed,

The heat-resistant second transparent film 6 is cut to provide a base area of the printed circuit pattern, and a printed circuit layer 8 is printed on the cut-formed heat-resistant second transparent film 6, but the heat-resistant second transparent film 6 ) At the location of the capacitive dimming type touch input unit (A), which is printed using transparent conductive ink, has a transmittance of 85 to 95%, an average sheet resistance of 40 to 105 Ω/sq, and includes a capacitive transparent electrode (8a). The transparent printed circuit pattern part 30 is printed on the placement position of the capacitive dimming type touch input unit (A), and printing using opaque conductive ink on the part other than the capacitive dimming type touch input unit on the heat-resistant second transparent film 6 It is configured to form a conductive opaque printed circuit pattern portion 32,

On the printed circuit layer 8 of the heat-resistant second transparent film 6, a transparent protective coating layer 10 of urethane-based resin is formed to protect the printed circuit layer 8 during insert injection molding.

The operation panel 100 having the capacitive dimming type touch input unit (A) according to the present invention as described above is a graphic printing layer having a graphic image 4a as a part of the information identifier button 20 of the touch input unit (A) ( 4) Since this is located on the inner surface of the first transparent film 2 and is protected from the external exposed surface, it has the advantage of not being damaged or worn, and the printed circuit layer 8 including the transparent electrode 8a of the touch input unit A is at the bottom. Located on the inner surface of the second transparent film 6 placed on the inside, the printed circuit layer 8 is protected, as well as through the information identifier button 20 such as a letter forming the skin surface of the dimming type touch input unit A. By configuring the transparent printed circuit layer so that the backlight light of the located light emitting unit 34 is illuminated without being disturbed by the capacitive touch printed circuit pattern, the user has excellent information identification.

In addition, according to the present invention, the injection resin intermediate layer 12 forming the thick intermediate layer has an insulating property and a thickness that allows the surface electromotive force of the capacitive dimming type touch input unit (A) to exert well, as well as the first and second transparent films (2). (6) It also makes sure the bond between them.

Moreover, the operation panel 100 having the touch input unit (A) of the present invention is made of insert injection molding, so that the process is simple and the first and second transparent films (2) and (6) located on both sides of the product are completed. There is an advantage in that deformation such as bending does not occur.

With the injection resin intermediate layer 12 in the middle, the first and second transparent films 2 and 6 bonded by insert injection to the outer surfaces of both sides of the injection resin intermediate layer 12 are all used as PET resin to prevent bending deformation. In addition, the first transparent film (2) selects PC resin with good design freedom during pre-molding, and the second transparent film (6) has chemical resistance, regardless of the effect of forming the printed circuit layer (8). A PET resin having good chemical resistance is selected, but by forming the injection resin intermediate layer 12 to a thickness of 2 to 3 mm, the bending deformation phenomenon can be prevented.

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be determined by the described embodiments, but should be determined by the claims and equivalents to the claims.

(A) - Touch input unit (2) - First transparent film
(4)-- Graphic printing layer (4a)-- Graphic image
(6)-- Second transparent film (8)-- Printed circuit layer
(8a) - Electrode (8b) - Conductive pattern line
(9)-- Flexible printed circuit cable (10)-- Protective coating layer
(12)-- Injection resin intermediate layer (20)-- Information identifier button
(30)-Transparent printed circuit pattern part (32)-Opaque printed circuit pattern part
(34)-- Light-emitting part (100)-- Operation panel

Claims (2)

In the operation panel including a capacitive dimming type touch input unit,
The human body touched by the capacitive dimming type touch input unit (A) between the heat-resistant first and second transparent films (2) (6) and the first and second transparent films (2) (6) having a thickness of 70 to 250 μm A translucent and insulating injection resin intermediate layer 12 having a thickness of 1.5 to 3 mm that prevents the bending of the operation panel due to the difference in thermal expansion coefficient between the constituent materials while allowing the surface electromotive force to affect the part is formed by insert injection molding, and the capacitance method It is provided with an operation panel 100 having a dimming type touch input unit (A),
On the rear surface of the heat-resistant first transparent film 2, a graphic printing layer 2 having an information identifier button 20 in the graphic image 4a at an arrangement position of the capacitive dimming type touch input unit A is formed,
The heat-resistant second transparent film 6 is cut and formed to provide a base area of the printed circuit pattern including the flexible printed circuit cable 9 protruding from the heat-resistant first transparent film 2, and the first transparent film A printed circuit layer (8) is printed on the cut-formed second transparent film (6) including the tail protruding from (2), but the arrangement of the capacitive dimming type touch input (A) on the heat-resistant second transparent film (6) At the location, the transparent printed circuit pattern part 30 including the transparent electrode 8a of the capacitive method has a transmittance of 85 to 95% and an average sheet resistance of 40 to 105 Ω/sq by using a transparent conductive ink. Printed at the placement position of the touch input unit (A), the heat-resistant second transparent film 6 is printed using an opaque conductive ink for portions other than the capacitive dimming type touch input unit (A). Is configured to be formed,
The second transparent film 6 and the printed circuit layer 8 are provided including a flexible printed circuit cable 9 having a conductive pattern line 8b for electrical connection with an external circuit part, but a flexible printed circuit cable (9) Regarding the prepared part, the tail protrudes from the cavity of the injection mold during insert injection molding and extends to the outside so that it is exposed.
Static electricity characterized in that a transparent protective coating layer 10 of urethane resin is formed on the printed circuit layer 8 of the heat-resistant second transparent film 6 to protect the printed circuit layer 8 during insert injection molding. Operation panel with capacitive dimming type touch input. delete

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