JPH06273776A - Liquid crystal display device - Google Patents

Abstract

PURPOSE:To weaken the force applied to a polarizing film in a depressed position at the time of depression of a touch switch to hardly deteriorate the polarizing film and to prevent the uneveness of display by arranging the inner side end of an adhesive adhering the touch switch on the outside of the inner side end of dotty seals. CONSTITUTION:A touch switch 5 has the peripheral part stuck to a liquid crystal display element, and the peripheral seal consists of a framelike peripheral seal 1 and dotty seals 2 provided on the inside, and the inside end of an adhesive 6 adhering the touch switch is arranged on the outside of the inside end of dotty seals 2. Even if the depressing force is concentrated to the inside of the adhesive 6 when the touch switch 5 is depressed, dotty seals 2 act to receive this force. Therefore, a strong force which bends the front substrate of the liquid crystal display element to narrow the space between substrates is suppressed. Thus, the variance of the space between substrates due to depression of the vicinity of the peripheral seal is reduced, and the occurrence of the color variance of display is suppressed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display device having a touch switch arranged on its surface.

[0002]

2. Description of the Related Art A liquid crystal display device in which a touch switch is arranged on the surface of a liquid crystal display element to perform switch input according to the display has been used in various applications such as a copying machine, a handy terminal, an electronic notebook, and a small personal computer. There is. In particular, recently, personal computers have been desired to be miniaturized, and there is an increasing demand for a portable personal computer that is easy to carry, has no keyboard, and uses a touch switch arranged on a display element for input.

On the other hand, there is a strong demand for a larger display area for the size of the device, and there is a tendency for the touch switch to become larger. When the liquid crystal display element becomes large in size, high-definition display is provided, so that the uniformity of the substrate gap of the display element itself is important from the viewpoint of display uniformity.

In particular, liquid crystal display elements are often used in portable equipment because of low power consumption, and STN (Super Twisted Nematic) is usually used for high definition.
Used as a liquid crystal display device. Although this STN liquid crystal display element has a high contrast ratio even with high definition, control of the substrate gap of the liquid crystal display element requires strict uniformity. Therefore, when the touch switch is pasted on the surface and laminated, the liquid crystal display element is pressed when the touch switch is pressed, which may cause deterioration of the polarizing film, uneven display, abnormal alignment, and other problems. was there.

For this reason, the touch switch is not attached on the surface of the liquid crystal display element, but is attached on the periphery thereof so that a strong force is not directly applied to the polarizing film of the liquid crystal display element.

[0006]

The peripheral sealing material of the liquid crystal display element is usually about 2 mm or less in width, and the width of the adhesive material for sticking the touch switch at the peripheral portion is usually wider than this. Has become. Therefore, when the adhesive material of the touch switch is arranged just above the peripheral sealing material so as to protrude to both ends thereof, when the touch switch is pressed, the force is concentrated on the inner portion of the peripheral sealing material. For this reason, a strong pressure is applied intermittently to a portion near the inside of the peripheral seal of the liquid crystal display element, which causes a problem that the display of the liquid crystal display element is adversely affected.

An object of the present invention is to solve the above-mentioned problems and to obtain a liquid crystal display device which has a small adverse effect on the display and the polarizing film even when the touch switch is pressed, and is less likely to cause an adverse effect during production. .

[0008]

The present invention has been made to solve the above-mentioned problems, and a pair of substrates with electrodes are arranged so that their electrode surfaces face each other, and the peripheries are sealed to form an internal structure. In a liquid crystal display device in which a liquid crystal display element having a liquid crystal sandwiched between and a touch switch disposed on the surface side of the liquid crystal display element is adhered to the liquid crystal display element around the touch switch, the peripheral seal is frame-shaped. Of the peripheral seal and a dot seal provided inside thereof, wherein the inner end of the adhesive material that adheres the touch switch is arranged outside the inner end of the dot seal. A liquid crystal display device is provided.

Further, when the seal length is the seal diameter in the direction parallel to the adjacent frame-shaped peripheral seal, the seal length of the seal after crimping the seal / seal interval = 0.02 to The present invention provides a liquid crystal display device characterized by being set to 0.33.

The liquid crystal display element used in the liquid crystal display device of the present invention is one in which a pair of substrates with electrodes are arranged so that the electrode surfaces face each other, and the periphery is sealed with a peripheral seal to sandwich the liquid crystal inside. . As a specific example, In ₂ O ₃ -SnO ₂ (I
There is a liquid crystal display element in which a transparent electrode such as TO) or SnO ₂ is formed on a substrate such as glass or plastic, and an alignment film such as polyimide or polyamide is formed on the substrate, and a liquid crystal is sandwiched between the substrates. .

On this substrate, if necessary, a color filter, a light shielding film, a retardation film, a polarizing film, a TFT, an M
IM, metal wiring, a reflective layer, various insulating layers, etc. may be formed. Further, the substrate itself may be a color filter, a retardation plate, a polarizing film, a reflection plate, a semiconductor substrate or the like, if necessary.

The liquid crystal display device of the present invention is particularly preferably a STN liquid crystal display device, in which liquid crystal is enclosed so that the twist angle is 180 to 360 °, and a display with a high contrast ratio is obtained by a pair of polarizing films. You can Further, there is a black and white STN liquid crystal display element in which a liquid crystal element for interference is laminated on this or a retardation plate is laminated to make the display black and white.

Of course, the present invention can be applied to a conventional TN liquid crystal display device and a GH liquid crystal display device using a dichroic dye, and can also be used in a ferroelectric liquid crystal display device which has been put into practical use. Is.

The touch switch of the present invention can be used as long as it is a touch switch of a type in which a transparent substrate is used to press the surface of the substrate in some way and the display of the liquid crystal display element arranged behind can be read. Specifically, there are a contact type touch switch, a capacitance detection type touch switch, an electromagnetic induction type touch switch, and the like. In particular, the effect of the present invention is great when a touch switch of the type in which electrodes on the inner surfaces of both substrates are in contact with each other and is detected by using two plastic substrates or glass substrates.

FIG. 1 is a plan view showing a basic example of a seal shape of a liquid crystal display element used in the present invention. In FIG.
1 is a peripheral seal, and 2 is a dot seal. The seal part is hatched for clarity.

FIG. 2 is a partially enlarged sectional view showing a state in which a touch switch is laminated on the liquid crystal display element of FIG. Figure 2
, 3A and 3B are substrates such as glass and plastic, 4
Reference numerals A and 4B denote polarizing films arranged on both surfaces of the film, 5 denotes a touch switch provided thereon, and 6 denotes an adhesive material for bonding the liquid crystal display element and the touch switch. W ₁ is the width of the adhesive material 6, and W ₂ is the width of both ends of the peripheral seal 1 and the dot seal 2.

Although the inside of the liquid crystal display element is omitted in this drawing, ITO is formed on the inner surface of the substrate.
, SnO ₂ etc. electrodes, insulating films, alignment films, color filters,
A light-shielding film or the like is provided as needed. Further, the liquid crystal layer may be made into two layers, or a retardation plate, a color filter and the like may be laminated.

In the present invention, two seals are provided as a peripheral seal, that is, a peripheral seal 1 similar to a normal peripheral seal, and a dot seal 2 arranged in a dot shape near the inside thereof.
Then, the inner end of the adhesive material 6 that adheres the touch switch to the liquid crystal display element is arranged outside the inner end of the point seal 2. As a result, when the touch switch is pressed and the force is concentrated inside the adhesive material 6,
Since the dot-like seal holds the substrate gap, the force for narrowing the substrate gap inside the dot-like seal is significantly reduced, and the display is less likely to be adversely affected.

In FIG. 2, the adhesive 6 has one end on the substrate.
It is aligned with the edge of 3A, and this is preferable because it widens the effective area of the display, but one edge of the adhesive 6 is placed inside the edge of the substrate 3A for manufacturing reasons. You can also However, it is necessary to prevent the point-like seal from coming inward from the inner end.

The shape and arrangement of the peripheral seal and the dot-shaped seal of the present invention differ depending on the required display mode, but normally, due to the requirement to make the display area as wide as possible, the width of the adhesive material of the touch switch is changed to the dot-shaped. Determine the position of the seal. In this case, the peripheral seal may have the same design specifications as the seal of a normal liquid crystal display element.

The point seals may be provided in a circular shape at appropriate intervals along the inside of the peripheral seal.
The area and interval of each one may be experimentally determined by the height and width of the adhesive material with the touch switch, the size of the touch switch, and the like. The shape of the dot seal is usually circular, but may be elliptical or rectangular.
However, from the viewpoint of shortening the time for injecting liquid crystal and suppressing the bubbles remaining at the time of injecting the liquid crystal (the portion left without injecting the liquid crystal), it is preferable to have a circular shape or a shape close thereto.

The interval between the point seals is usually about 5 to 40 mm. When the seal length is set in the direction parallel to the peripheral seals adjacent to the point seals, the seal length of the point seals after crimping the seals S / seal interval = 0.02 to 0.33 is preferable. Since the width of the adhesive material with the touch switch is about 2 to 5 mm, the position of the dot-shaped seal may be determined accordingly.

At this time, the touch switch adhesive 6 (width
If the W ₁₎ to put together one end to the edge of the substrate 3A, the width W from the edge of the substrate 3A to the inside of the end of the point-like seal
₂ is set so that W ₂ ≧ W ₁ . In particular, it is preferable that the end of the adhesive material 6 of the touch switch comes close to the central portion of the dot seal.

It is preferable that the point seal is separated from the peripheral seal from the viewpoint of easy injection of liquid crystal. In addition, if the peripheral seal of a specific part is widened,
When the substrate is pressure-bonded and the seal is cured, each part does not spread equally and there is a risk that the substrate gap will partially widen. preferable.

On the contrary, there is a concept that the peripheral seal is placed inside and the dot seal is placed outside, and the effect of suppressing the influence of the attachment of the touch switch is produced. However, since the continuous peripheral seal comes too close to the display area, the display may be affected. Therefore, it is preferable to provide the dot seal inside the peripheral seal as in the present invention.

In this case, when a polarizing film is provided,
The edge of the polarizing film comes inside the adhesive, and the polarizing film 4A and adhesive 6
It is preferable that and do not overlap. As a result, even if the touch switch is pressed, no force is exerted directly on the polarizing film, or even if it occurs, the force is less than that when the touch switch is directly attached to the polarizing film, so there is little adverse effect on the polarizing film. . Particularly in the case of a black-and-white STN liquid crystal display element, when the retardation plate is used in combination with the polarizing film, the adverse effect of the pressing of the retardation plate is large, and the effect of the present invention is great.

The adhesive used to attach the touch switch of the present invention may be a liquid crystal adhesive, but in order to maintain the thickness and width, a film-like adhesive, specifically, a double-sided tape is used. The use of different adhesives is preferred. The thickness of the adhesive is preferably slightly thicker than the thickness of the member provided on the front surface side of the liquid crystal display element, specifically, the thickness of the polarizing film.

[0028]

In the present invention, the touch switch is attached to the liquid crystal display element in the peripheral portion thereof, and the peripheral seal is composed of the frame-shaped peripheral seal and the dot-shaped seal provided inside the peripheral switch. The inner end of the adhering adhesive is arranged outside the inner end of the point seal.
Accordingly, even if the pressing force is concentrated inside the adhesive material when the touch switch is pressed, the point seal works to receive it. Therefore, a strong force for bending the front substrate of the liquid crystal display element to narrow the substrate gap can be suppressed.

As a result, the fluctuation of the substrate gap due to the pressing at the time of the peripheral sealing can be reduced, and the occurrence of display color unevenness can be suppressed. In addition, if the polarizing film is adhered at the dislocated part, even if the touch switch is pressed, no force is applied directly to the polarizing film, or even if it occurs, when the touch switch is directly attached to the polarizing film. Since the force applied to the polarizing film is smaller than that to, the adverse effect on the polarizing film is small.

[0030]

【Example】

Example 1 A glass substrate was prepared in which 640 ITO stripe electrodes were formed and an insulating film made of SiO ₂ and a polyimide alignment film were formed. Further, a glass substrate on which 480 ITO stripe electrodes were formed and a polyimide alignment film was formed was prepared. The two substrates were combined and the periphery was sealed with a sealing material as shown in FIG. The width of the peripheral seal is approximately 2 mm after crimping the seal, the diameter of the point seal is approximately 1 mm after crimping the seal, and the distance between adjacent point seals is approximately 20 mm.
They were placed 0.5 mm apart (the distance between the center of the peripheral seal and the center of the point seal was about 2 mm). In this case, the seal length / seal interval of the point seal after crimping the seal is 1/20 = 0.05.

A nematic liquid crystal was injected into this cell and the injection port was sealed to prepare a liquid crystal cell. A black and white display type STN liquid crystal display device was prepared by combining this with a retardation film and a polarizing film. At this time, the polarizing film with the retardation film on the front side was attached with a peripheral portion having a width of about 3 mm as shown in FIG. Touch switch on top of it, width around
Attached with 3mm double sided tape. At this time, the double-sided tape was set so as not to overlap the polarizing film.

In this liquid crystal display element, it took a slightly longer time to inject the liquid crystal than in the case of the conventional cell having only the peripheral seal (without the dot seal). However, even if the touch switch is pressed, the display unevenness of the liquid crystal display element is small, and even if the touch switch is repeatedly pressed, there is no adverse effect that remains.

Comparative Example 1 A liquid crystal display device was prepared in the same manner as in Example 1 except that the touch switch was directly attached to the polarizing film instead of the peripheral portion. In this liquid crystal display device, each time the touch switch is pressed, a large display unevenness occurs in the vicinity of the touch switch, and when the same place is continuously pressed, it seems that the retardation film is adversely affected. It is in a state where it remains.

Comparative Example 2 A liquid crystal display device was produced in the same manner as in Example 1 except that only the peripheral seal was used as the seal of the liquid crystal display element, and the dot seal was not provided. In this liquid crystal display device, the adverse effect on the retardation film at the pressed position was significantly reduced as compared with Comparative Example 1, but a large display unevenness occurred at the time of sealing the inner end of the adhesive material each time the touch switch was pressed. When the button was pressed continuously, it was longer than in Comparative Example 1, but the display became uneven even if the pressing was stopped during repeated pressing.

Example 2 The point-shaped seal was not circular, and was about 3 mm in the direction along the peripheral seal and about 1 mm in the direction orthogonal thereto after crimping the seal. In this case, the seal length / seal interval of the point seal after pressure bonding of the seal is 3/20 = 0.15. Otherwise, Example 1
A liquid crystal display device was prepared in the same manner as in. This liquid crystal display device also produced the same effects as in Example 1.

[0036]

As described above, according to the present invention, two seals are provided as a peripheral seal, that is, a peripheral seal similar to a normal peripheral seal and a dot-shaped seal arranged in the vicinity of the inside of the peripheral seal. Then, in order to bond the touch switch arranged on it to the liquid crystal display element, the touch switch is bonded only by the peripheral portion. The inner end of the adhesive is arranged outside the inner end of the point seal.

As a result, when the touch switch is directly attached on the polarizing film, the force applied to the polarizing film at the pressed position is weaker when the touch switch is pressed, and deterioration of the polarizing film is less likely to occur. In addition, uneven display is unlikely to occur.

Further, as compared with a case where an adhesive material is attached to the vicinity of the peripheral seal without providing the dot seal, even if a force is concentrated on the inside of the adhesive material when the touch switch is pressed, A point seal holds the substrate gap. Therefore, the force for narrowing the substrate gap inside the dot-shaped seal is significantly reduced, and the display unevenness is unlikely to be adversely affected.

There is also a concept that the adverse effect of the adhesive material of the touch switch is suppressed by arranging the position of the peripheral seal further inside. However, in this case there is a considerable exposed portion of the electrode outside the perimeter seal. This leads to the problem of electrolytic corrosion of the electrodes and causes a decrease in reliability. In the present invention, since the peripheral seal may be the same as the conventional one, such a problem is unlikely to occur.

There is also an idea that the peripheral seal is designed wide so that the adhesive for the touch switch is completely received by the peripheral seal. However, in this case, a very strong pressure is required at the time of crimping the substrate, the seal is not sufficiently crimped, and the desired substrate gap cannot be obtained, or the disturbance of the seal pattern after the seal crimping becomes large. Cause problems. Therefore, it becomes a serious problem in the production process. In the present invention, since the peripheral seal may be the same as the conventional one, such a problem is unlikely to occur.

In addition to the above, the present invention can be applied in various ways within a range that does not impair the effects of the present invention.

[Brief description of drawings]

FIG. 1 is a plan view showing a basic example of a seal shape of a liquid crystal display element used in the present invention.

FIG. 2 is a partially enlarged cross-sectional view showing a state in which touch switches are stacked on the example of FIG.

[Explanation of symbols]

 1: Peripheral seal 2: Point-shaped seal 3A, 3B: Substrate 4A, 4B: Polarizing film 5: Touch switch 6: Adhesive

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Shuzo Takeshima 1-2-1 Kamisaka, Amagasaki City, Hyogo Prefecture Optrex Co., Ltd. Amagasaki Plant

Claims (2)

[Claims] 1. A liquid crystal display element in which a pair of substrates with electrodes are arranged so that their electrode surfaces face each other, and liquid crystal is sandwiched inside by sealing the peripheries, and a touch switch arranged on the surface side. In the liquid crystal display device in which the touch switch is adhered to the liquid crystal display element in the periphery thereof, the peripheral seal is composed of a frame-shaped peripheral seal and a dot-shaped seal provided inside the frame, and the touch switch is adhered. A liquid crystal display device, wherein an inner end of the adhesive material is disposed outside an inner end of the dot seal. 2. The liquid crystal display device according to claim 1, wherein, when the seal length is a diameter of a seal in a direction parallel to a frame-shaped peripheral seal adjacent to the seal, the seal of the seal after pressure bonding is applied. A liquid crystal display device characterized in that the length / seal distance is 0.02 to 0.33.