KR101866322B1 - Touch sensing device using total internal reflection and touch sensing method using the same - Google Patents

Abstract

The present invention relates to a touch sensing apparatus using total internal reflection and a touch sensing method using the same. A touch sensing apparatus using total internal reflection of the present invention includes: a light transmitting panel having a plurality of surfaces; A light emitting module provided on one of the upper surface and the lower surface of the light transmitting panel and having a plurality of light emitting elements for irradiating light into the light transmitting panel; And a light guide plate provided on one of the upper surface and the lower surface of the light transmission panel so as to face the position where the light is incident on the light transmission panel and scattering the incident light passing through the light transmission panel so as to be totally reflected in the light transmission panel. Refraction means; And a light receiving unit provided on the light transmitting panel and having a plurality of light receiving elements for receiving light transmitted through the light transmitting panel through the light refracting unit. According to the touch sensing apparatus using the total reflection of the present invention and the touch sensing method using the touch sensing apparatus, the light irradiated into the light transmission panel through the optical refraction means is totally reflected and is not affected by disturbance light. Therefore, it can be installed outdoors with lots of disturbance. Particularly, since the light irradiated by the reflecting member provided on the upper surface of the light transmitting panel is reflected, disturbance light is prevented from being incident into the light transmitting panel by the reflecting member. Since the light emitting module is provided on the lower surface of the light transmitting panel, the height of the bezel area of the touch sensing device can be reduced.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a touch sensing apparatus using total reflection, and a touch sensing method using the touch sensing apparatus.

The present invention relates to a touch sensing device using total internal reflection and a touch sensing method using the touch sensing device. More particularly, the present invention relates to a touch sensing device using total reflection capable of sensing a touch of an object by light totally reflected by a light- And a touch sensing method using the same.

Generally, resistive film type, full capacitance type, ultrasonic type, and infrared type are typical examples of a conventional method of implementing a touch screen. In addition, a number of methods such as an image processing method using a camera, a piezo method, and a tension measuring method have been proposed and commercialized.

In the infrared matrix method, a matrix composed of infrared light is arranged on the screen by densely arranging LEDs for transmitting infrared rays and phototransistors for receiving infrared rays along the outline of the screen, and a specific area on the screen is contacted Since the infrared ray is blocked, it is detected so that the X / Y position of the contacted object can be detected. In this method, since the LED for infrared transmission and the phototransistor for receiving infrared rays are arranged in an array form along the frame outside the screen, it is advantageous to provide a clear screen because it is not necessary to cover the front surface of the screen with the touch panel. It is relatively easy to respond and has the advantage of operating regardless of the type of object being touched.

Such an infrared matrix method uses an LED for infrared transmission, and thus is affected by disturbance light. In particular, when an infrared matrix type screen is installed outside the room, the amount of change in the quantity of light in the receiving phototransistor can not be accurately confirmed by disturbance light. In addition, since the LED for infrared transmission and the receiving phototransistor are disposed on the front surface of the screen, there is a predetermined height (jaw) for infrared transmission in the screen bubble region.

An object of the present invention is to provide a light guide module capable of reducing the height of a bezel area without being affected by disturbance light by allowing light to be totally reflected in a light transmission panel by scattering light passing through a light- And a touch sensing method using the touch sensing device.

According to an aspect of the present invention, there is provided a touch sensing apparatus using total reflection, and a touch sensing method using the same. A touch sensing apparatus using total internal reflection of the present invention includes: a light transmitting panel having a plurality of surfaces; A light emitting module provided on one of the upper surface and the lower surface of the light transmitting panel and having a plurality of light emitting elements for irradiating light into the light transmitting panel; And a light guide plate provided on one of the upper surface and the lower surface of the light transmission panel so as to face the position where the light is incident on the light transmission panel and scattering the incident light passing through the light transmission panel so as to be totally reflected in the light transmission panel. Refraction means; And a light receiving unit provided on the light transmitting panel and having a plurality of light receiving elements for receiving light transmitted through the light transmitting panel through the light refracting unit.

In one embodiment, the optical refraction means includes a reflection member that reflects light incident through the light transmission panel toward the light transmission panel. And a lens refracting surface for refracting the light reflected from the reflecting member into the light transmitting panel at a total reflection angle.

In one embodiment, the light refraction means and the light emitting module are installed on the light transmitting panel by an adhesive.

In one embodiment, the light receiving unit includes a light receiving module having a plurality of light receiving elements for receiving light transmitted through the light transmitting panel; And a light refraction means provided on one of the upper surface and the lower surface of the light transmission panel so that light transmitted through the light transmission panel is incident on the light transmission panel and is received by the light reception module.

In one embodiment, the optical refraction means comprises: a reflection member for reflecting the light incident through the light transmission panel toward the light transmission panel; And a lens film for scattering the light reflected from the reflecting member at a total reflection angle.

A touch sensing method using total internal reflection of the present invention includes driving a light emitting device of a light emitting module provided on an upper surface or a lower surface of a light transmitting panel; The light emitted from the light emitting module passes through a light transmission panel and is incident on a light refraction means provided on an upper surface or a lower surface of the light transmission panel; Reflecting light by a reflecting member provided in the photorefractive unit; The reflected light is scattered by the lens film, and light having a total reflection angle is incident into the light transmission panel; The light incident into the light transmission panel is totally reflected; Receiving light totally reflected in the light transmitting panel to a light receiving unit; And sensing a touch of an object through a change in the amount of received light received by the light receiving unit.

According to the touch sensing apparatus using the total reflection of the present invention and the touch sensing method using the touch sensing apparatus, the light irradiated into the light transmission panel through the optical refraction means is totally reflected and is not affected by disturbance light. Therefore, it can be installed outdoors with lots of disturbance. Particularly, since the light irradiated by the reflecting member provided on the upper surface of the light transmitting panel is reflected, disturbance light is prevented from being incident into the light transmitting panel by the reflecting member. Since the light emitting module is provided on the lower surface of the light transmitting panel, the height of the bezel area of the touch sensing device can be reduced.

FIG. 1 is a configuration diagram of a touch sensing apparatus according to a preferred embodiment of the present invention.
FIG. 2 is a cross-sectional view of the touch sensing apparatus of FIG. 1. FIG.
3 is a diagram illustrating a process of irradiating light from a light emitting unit of the touch sensing apparatus.
4 is a diagram illustrating a process in which light transmitted through a light transmitting panel is received by a light receiving unit.
5 is a view showing various modified embodiments of the light receiving portion.
6 is a view showing various modified embodiments of the light emitting portion.
7 is a diagram illustrating a method of sensing a touch position of an object using the touch sensing apparatus of the present invention.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that the same components are denoted by the same reference numerals in the drawings. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

FIG. 1 is a configuration diagram of a touch sensing apparatus according to a preferred embodiment of the present invention.

1, a touch sensing apparatus 100 according to the present invention includes a light transmitting panel 110, a light emitting unit 120 for emitting light, a light receiving unit 160 for receiving light, a light emitting unit 120, A light receiving section drive circuit 101 for driving the light emitting section driving circuit 102 and the light receiving section 160 and a control section 108. [

The light transmission panel 110 is a plate-like plate having a plurality of surfaces, and is formed of a material through which light can be transmitted. The light transmitting panel 110 may be a plate-like plate or a flexible material film. The light transmitting panel 110 may be planar or curved.

The light emitting unit 120 is provided in a first direction (lateral direction) and a second direction (longitudinal direction) along the periphery of the light transmission panel 110 in a configuration for irradiating light to the light transmission panel 110. The light emitted from the light emitting portion is transmitted to the total reflection in the light transmitting panel 110. The light emitting unit 120 may be integrally formed and installed in the first direction and the second direction, or may be installed in the first direction and the second direction separated from the first direction. In other words, when a part of the light emitting unit 120 is replaced by installing it separately in units of modules, partial replacement is possible, and driving on a module basis is possible.

The light receiving portion 160 is provided in the first direction (the lateral direction) and the second direction (the longitudinal direction) along the periphery of the light transmission panel 110 so as to face the light emitting portion. The light emitted from the light emitting unit 120 is transmitted through the light transmitting panel 110 and is received by the light receiving unit 160. A touch sensing area 105 is formed on the upper surface or the lower surface of the light transmission panel 110 to sense the touch of the object by the light emitting unit 120 and the light receiving unit 160.

The light receiving unit 160 may be integrally formed in the same manner as the light emitting unit 120, and may be installed in the first direction or the second direction, or may be installed in the first direction and the second direction. In other words, when a part of the light receiving unit 120 is replaced by installing it separately in units of modules, partial replacement is possible, and driving in units of modules is possible.

The light emitting part driving circuit 102 and the light receiving part driving circuit 101 are connected to the light emitting part 120 and the light receiving part 160 and are connected to the light emitting part of the light emitting part 120 and the light receiving part 160 Is driven. The control unit 108 confirms the touch sensing and the touch coordinates according to the change of the amount of light transmitted through the light transmitting panel 110 from the light receiving unit 160.

FIG. 2 is a cross-sectional view of the touch sensing apparatus of FIG. 1. FIG.

Referring to FIG. 2, the light emitting unit 120 includes a light emitting module 140 and a light emitting refracting unit 130. The light emitting module 140 includes a plurality of light emitting devices 144 mounted on the base substrate 142 and the base substrate 142 for emitting light. The base substrate 142 may be, for example, a PCB substrate. The plurality of light emitting devices 144 are installed along the longitudinal direction of the base substrate 142 in an SMD type or a pin type. In the present invention, an SMD type light emitting device is used. The light emitted from the light emitting device 144 provided on the base substrate 142 is directed to the light transmitting panel 110 at one of the upper surface or the lower surface of the light transmitting panel 110 ) OCA (Optical Clear Adhesive) 141, which can transmit light, is applied to the upper part of the light emitting device 144 or the lower part of the light transmitting panel 110, The module 140 and the light transmitting panel 110 can be adhered to each other. The number and spacing of the light emitting elements 144 can be variously modified. A guide may be provided around the base substrate 142 in the light emitting module 140.

The light emission refraction means 130 is configured to scatter the light emitted from the light emitting device 144 of the light emitting module 140 and transmit the light to the light transmission panel 110 through total reflection. The luminescent refracting means 130 is composed of a lens film 132 having a light refracting surface 133 and a reflecting member 134. One surface of the lens film 132 is provided with a light refraction surface 133 for refracting the light so that the light can be totally internally reflected and propagated inside the light transmission panel 110. The optical refracting surface 133 is formed by connecting a plurality of curved surfaces along the length of the lens film 132. The number of the curved surfaces constituting the optical refraction surface 133 and the curved angle of the curved surface can be variously modified. The light refracting surface 133 may have various curved shapes as well as various shapes so that light having a total reflection angle can be incident into the light transmitting panel by scattering light.

On the other surface of the lens film 132 where the optical refraction surface 133 is not provided, a reflecting member 134 for reflecting light is provided. The reflective member 134 may be, for example, a mirror. The light irradiated into the lens film 132 is reflected by the reflecting member 134. The reflection member 134 and the lens film 132 are adhered to each other with a light-transmitting adhesive (for example, OCA) 131. The lens film 132 is provided on the upper surface of the light transmitting panel 110 such that the light refracting surface 133 faces the light emitting device 144. The lens film 132 and the light transmitting panel 110 can be adhered to each other by a light-transmittable adhesive 131.

The light receiving unit 160 is composed of the light receiving and refracting unit 170 and the light receiving module 180 in the same configuration as the light emitting unit 120. When the light emitted from the light emitting unit 120 is transmitted through the light transmitting panel 110, it is propagated by the light receiving refracting unit 170 of the light receiving unit 160 and is received by the light receiving module 180. The light receiving module 180 is composed of a base substrate 182 and a plurality of light receiving elements 184 provided along the longitudinal direction of the base substrate 182. The light receiving module 180 is bonded to the lower surface of the light transmitting panel 110 by an adhesive 181. A light guide module 180 may be provided with a guide around the base substrate 182.

The light receiving and refracting means 170 is positioned on the upper surface of the light transmitting panel 110 so as to face the light receiving module 180. The light receiving and refracting means 170 is composed of a reflecting member 174 for reflecting light and a lens film 172 for totally reflecting light. The light totally reflected by the light transmitting panel 110 is then scattered by the light receiving and refracting means 170 and received by the light receiving module 180. The light receiving and refracting means 170 performs the same function as the light emitting and refracting means 130.

3 is a diagram illustrating a process of irradiating light from a light emitting unit of the touch sensing apparatus.

Referring to FIG. 3, the light emitted from the light emitting device 144 is incident into the light transmitting panel 110. Here, the light emitted from the light emitting element 144 is incident (0? <? 1 <180) into the light transmitting panel 110 at an arbitrary angle? 1. In the embodiment of the present invention, the first angle [theta] 1 is 90 [deg.], For example. The light incident into the light transmission panel 110 is incident into the lens film 132. The light incident into the lens film 132 is reflected by the reflection member 134 provided on the rear surface of the lens film 132 and enters into the lens film 132 again. The incident light again is scattered by the optical refracting surface 133, and the light having the total reflection angle 2 is incident into the light transmitting panel 110 again. In other words, the light is refracted at the total reflection angle [theta] 2 on the light refracting surface 133 incident into the lens film 132. [ The light incident on the light transmission panel 110 at the total reflection angle? 2 can be totally reflected and transmitted within the light transmission panel 110. [ The light 138 reflected by the light transmitting panel 110 is received by the light receiving unit 160.

4 is a diagram illustrating a process in which light transmitted through a light transmitting panel is received by a light receiving unit.

Referring to FIG. 4, the light incident on the light transmission panel 110 with the total reflection angle and transmitted is received through the light receiving unit 160. The light transmitted through the light transmitting panel 110 is incident into the lens film 172 of the light receiving unit 160. The light incident into the lens film 172 is reflected by a reflecting member 174 And is then incident into the lens film 172. The light incident into the lens film 172 is scattered by the optical refracting surface 173 and transmitted to the light transmitting panel 110 and then received by the light receiving module 180 The light received by the light receiving element 184 is transmitted to the controller 108. The controller 108 controls the touch of the object (not shown) in the touch sensing area 105 through the received light amount, The touch sensing apparatus 100 determines whether the light is totally reflected in the light transmitting panel 110 when a touch is made by an object (not shown), and the transmitted light is scattered at a touch point of an object (not shown) The amount of light received through the light receiving unit 160 is reduced. Therefore, the control unit 108 The presence or absence of the touch by the object and the touch position can be confirmed by using the amount of light received through the light receiving unit 160. [

5 is a view showing various modified embodiments of the light receiving portion.

5A, the light receiving unit 160 of the present invention includes a light receiving module 180 on the lower surface of the light transmitting panel 110 and a light refraction unit 170 on the upper surface of the light transmitting unit 110, Respectively. The light propagated through the light transmission panel 110 is received by the light receiving module 180 through the light refraction means 170.

The light receiving unit 160 of the present invention includes a light refracting unit 170 on the lower surface of the light transmitting panel 110 and a light receiving module 170 on the upper surface of the light transmitting unit 110 so as to have a structure opposite to that of the light emitting unit 120, 180). The light propagated through the light transmission panel 110 is received by the light receiving module 180 through the light refraction means 170.

5C, the light receiving unit 160 of the present invention can directly receive the light propagated through the light transmitting panel 110 through the light receiving module 180. At this time, the position of the light receiving module 180 is located on the optical path propagated through the light transmitting panel 110.

When the touch sensing apparatus 100 of the present invention is used, light irradiated into the light transmitting panel through the optical refracting means is totally reflected and is not affected by disturbance light. Therefore, it can be installed outdoors with lots of disturbance. Particularly, since the light irradiated by the reflecting member provided on the upper surface of the light transmitting panel is reflected, disturbance light is prevented from being incident into the light transmitting panel by the reflecting member. Since the light emitting module is provided on the lower surface of the light transmitting panel, the height of the bezel area of the touch sensing device can be reduced.

6 is a view showing various modified embodiments of the light emitting portion.

6 (a), the light emitting unit 120 of the present invention includes the light refraction unit 130 on the upper surface of the light transmission panel 110 and the light emitting module 140 on the lower surface thereof. 6B, the positions of the light refraction means 130 and the light emitting module 140 may be reversed.

7 is a diagram illustrating a method of sensing a touch position of an object using the touch sensing apparatus of the present invention.

Referring to FIG. 7, the controller 108 transmits a control signal to the light emitting device 144 of the touch sensing device 100 to drive the light emitting device 144 (S100). When the light emitting device 144 is driven, light is irradiated at an arbitrary angle and incident into the light transmitting panel 110 (S110). The light incident on the light transmission panel 110 is incident into the lens film 132 of the light emission refraction means 130 (S120). Reflected by the reflective member 134 provided on one surface of the lens film 132, and re-incident into the lens film 132 (S130). The light that is reentered into the lens film 132 is refracted at the total refraction angle [theta] 2 on the light refraction surface 133 and is incident into the light transmission panel 110 (S140). The light incident into the light transmitting panel 110 is totally reflected and transmitted within the light transmitting panel 110 (S150). The transmitted light is received through the light receiving unit 160 and transmitted to the control unit 108 (S160). When it is confirmed that the amount of received light is changed (S170), the control unit 108 determines that there is a touch by the object and detects and displays the coordinates of the touch position of the object (S180).

When the touch sensing apparatus 100 of the present invention is used, light for touch sensing is incident into the light transmitting panel 110 and propagated, so that the touch sensing apparatus 100 is not affected by disturbance light. Therefore, it can be installed outdoors with lots of disturbance light. In particular, since the reflective member is provided on the upper surface of the light transmitting panel 110, the light emitted from the light emitting device 144 is not scattered to the outside, so that the light transmission amount can be maintained.

The touch sensing apparatus 100 of the present invention can be produced through a roll-to-roll process using a thin and flexible film-type light transmitting panel 110. Photorefractive means can also be produced through a roll-to-roll process. At this time, the light refracting surface 133 of the lens film 132 may be formed by a pattern roller. The optical refracting means applies the adhesive 131 to the light transmitting panel 110 and then attaches the lens film 132. The adhesive 131 is applied again to the lens film 132 and then the reflecting member 134 is bonded .

The embodiments of the touch sensing apparatus and the touch sensing method using the total reflection of the present invention described above are merely illustrative, It will be appreciated that other embodiments are possible.

Accordingly, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

100: touch sensing device 101: light receiving part driving circuit
102: light emitting portion driving circuit 105: touch sensing area
108: control unit 110: light transmitting panel
120: light emitting unit 130:
131, 171: Adhesive 132, 172: Lens film
133, 173: optical refracting surface 134, 174:
138: total reflection progressive light 140: light emitting module
141, 181: Adhesive 142, 182: Base substrate
144: light emitting element 160:
170: receiving light refracting means 180:
184: Light receiving element

Claims (6)

A light transmitting panel having a plurality of surfaces;
A light emitting module provided on one of the upper surface and the lower surface of the light transmitting panel and having a plurality of light emitting elements for irradiating light into the light transmitting panel;
And a light guide plate provided on one of the upper surface and the lower surface of the light transmission panel so as to face the position where the light is incident on the light transmission panel and scattering the incident light passing through the light transmission panel so as to be totally reflected in the light transmission panel. Refraction means; And
And a light receiving unit provided on the light transmitting panel and having a plurality of light receiving elements for receiving light transmitted through the light transmitting panel through the light refracting unit,
Wherein the light refraction means comprises:
A reflecting member for reflecting the light incident through the light transmitting panel toward the light transmitting panel; And
And a lens film having a light refraction surface for reflecting the light reflected from the reflection member into the light transmission panel at a total reflection angle. delete The method according to claim 1,
Wherein the light refraction means and the light emitting module are installed on the light transmission panel by adhesive (OCA). The method according to claim 1,
The light-
A light receiving module having a plurality of light receiving elements for receiving light transmitted through the light transmitting panel; And
And a light refraction unit provided on one of the upper surface and the lower surface of the light transmission panel so that the light transmitted through the light transmission panel is incident on the light transmission panel and is received by the light reception module through the light transmission panel. Touch sensing device using total internal reflection. 5. The method of claim 4,
The light-
A reflecting member for reflecting the light incident through the light transmitting panel toward the light transmitting panel; And
And a lens film for scattering the light reflected from the reflective member. Driving a light emitting element of a light emitting module provided on an upper surface or a lower surface of the light transmitting panel;
The light emitted from the light emitting module passes through a light transmission panel and is incident on a light refraction means provided on an upper surface or a lower surface of the light transmission panel;
Reflecting light by a reflecting member provided in the photorefractive unit;
The reflected light is scattered by the lens film, and light having a total reflection angle is incident into the light transmission panel;
The light incident into the light transmission panel is totally reflected;
Receiving light totally reflected in the light transmitting panel to a light receiving unit; And
And sensing a touch of an object through a change in the amount of received light received by the light receiving unit.

Images