KR20170069022A - Display Device - Google Patents

Abstract

The display device according to the present invention may include a display panel, a plurality of touch transmission units, a plurality of touch reception units, and a rolling transmission unit. The display panel may include a plurality of touch transmitting units, a plurality of touch receiving units, and a rolling transmitting unit. In the case of the conventional display device, the display device is rolled with a separate mechanism, and when the display device is rolled by a separate mechanism, the conductive material on the back of the display device and the touch panel of the display device come into contact with each other, I could. Accordingly, in the conventional display device, it is necessary to separately provide a separate mechanism, malfunction due to the touch panel and the display device are not rolled properly, and when the conductive material and the touch panel are not in contact with each other, And the rolling detection reliability of the display device could be lowered. However, since the display device according to the present invention includes the touch transmitting section, the touch receiving section, and the rolling transmitting section in the display panel, it is possible to improve the added value of the display panel and to reduce the manufacturing cost by eliminating the need for a separate mechanism for rolling the display device Lt; / RTI >

Description

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a display device, and more particularly, to a display device capable of detecting whether a touch area is rolled or not.

A touch panel is an input device that can input a command by selecting an instruction displayed on a screen of a video display device as a human hand or an object.

To this end, the touch panel is provided on the front side of the image display device, and converts the contact position, which is directly in contact with a human hand or an object, into an electrical signal, and receives the instruction content selected at the contact position as an input signal. As described above, since the touch panel can replace a keyboard, a mouse, and the like, which is an input device connected to a video display device, the use range is expanded.

A method of implementing a touch screen display panel is known as a resistive film type, a light sensing type, and a capacitive type. In general, the touch panel includes an add-on type touch panel attached to an outer surface of a video display device such as a liquid crystal display (LCD), an organic light emitting display (OLED) display, and the like, Touch panel, and hybrid type touch panel.

In recent years, a flexible display capable of maintaining the display performance even if bent like paper by using a flexible material that can be folded and unfolded like a plastic film is emerging as a next generation display device. The flexible display is implemented in various forms such as a rolling display and a folding display, and the touch panel attached to such a flexible display also requires a flexible characteristic.

Conventionally, it is possible to determine whether the display device is rolled by using a separate device provided outside the display device. Thus, there is a disadvantage in that a separate device is required in addition to the display device in order to determine whether or not the display device is rolled.

One embodiment of the present invention can provide a display device capable of detecting whether a touch area is rolled or not. More specifically, according to the embodiment, a display device provided with a detection sensor for rolling and folding in a display panel can be provided.

According to an aspect of the present invention, there is provided a display device including a substrate, a display panel including a touch transmitter, a touch receiver, and a rolling transmitter below the substrate, a signal transmitted from the touch transmitter, And a control unit for detecting a contact area of the display panel using a received signal and detecting whether the display panel is rolled by using a signal transmitted from the rolling transmission unit and a signal received from the touch reception unit.

By providing the touch sensor and the rolling and folding detection sensor in the display panel according to the embodiment of the present invention, it is possible to reduce the thickness and weight of the display device, and the degree of rolling and folding can be grasped by using the existing touch sensor It is possible to have an effect of reducing the manufacturing cost.

1 is a plan view of a display device according to an embodiment of the present invention.
2 is a diagram illustrating a rolled display device according to an embodiment of the present invention
3 is a cross-sectional view of a rolled display device according to one embodiment of the present invention.
4 is a view illustrating a rolled display apparatus according to an embodiment of the present invention.
5 is a view illustrating a rolled display device according to an embodiment of the present invention.
6 is a view illustrating a rolled display apparatus according to an embodiment of the present invention.
7 is a block diagram of a controller according to an embodiment of the present invention.
8 is a view showing time-division driving of a rolling and touch display according to an embodiment of the present invention.
9 is a diagram illustrating a driving algorithm according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. In the description of the embodiments, it is to be understood that each layer (film), region, pattern or structure may be referred to as being "on" or "under" a substrate, each layer It is to be understood that the terms " on "and " under" include both " directly "or" indirectly " do. In addition, the criteria for the top / bottom or bottom / bottom of each layer are described with reference to the drawings.

Furthermore, terms including ordinals such as first, second, etc. used in this specification may be used to describe various components, but since the terms are used only for the purpose of distinguishing one component from another, The elements are not limited to these terms.

It will be understood that when an element or layer is referred to as being another element or "on" or "on ", it includes both intervening layers or other elements in the middle, do. On the other hand, when a device is referred to as "directly on" or "directly above ", it does not intervene another device or layer in the middle.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

The terminology used herein is for the purpose of describing embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. &Quot; comprise "and / or" comprising ", as used in the specification, means that the presence of stated elements, Or additions.

On the other hand, the display device in the present invention can be called a portable terminal, a mobile terminal, a communication terminal, a portable communication terminal, a portable mobile terminal, or the like. For example, the display device may be a smart phone, a mobile phone, a game machine, a television (TV), a car head unit, a notebook computer, a laptop computer, a tablet, A personal digital assistant (PDA), a navigation device, an automatic teller machine (ATM) of a bank, a point of sale (POS) of a shop, and the like. Further, the display device of the present invention may be any device that can be bent or used or folded, but is not limited thereto.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to facilitate a person skilled in the art to which the present invention belongs. The same components may be denoted by the same reference symbols as possible even if they are displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a plan view of a display device according to an embodiment of the present invention.

Referring to FIG. 1, a display apparatus 100 according to an embodiment of the present invention may include a display panel 110 and a controller 150. The display panel 100 may include a plurality of touch transmitters 120 ₁ to 120 _x , a plurality of touch receivers 130 ₁ to 130 _y , and a rolling transmitter 140.

The display panel 110 may include a touch panel. Various methods such as Resistive Overlay, Capacitive Overlay, Surface Acoustic Wave, Infrared, and Surface Acoustic Wave can be applied to the touch panel. have. In the present invention, a touch panel using a capacitive method will be described. The electrostatic capacitive method is a method in which a transparent film or a transparent electrode layer is coated on a touch panel and a certain amount of electric current is applied to the touch panel, and then a change in capacitance caused when a finger or a stylus pen touches the surface of the touch screen is detected, Or the like. The capacitance type may include a ground capacitance type (Self capacitance) and a mutual capacitance type (mutual capacitance type). In the ground capacitance method, a touch is recognized by touch recognition, and one electrode is used for each basic pixel to read a capacitance change of the electrode to realize a touch. The mutual capacitance type is a method of using the capacitance between the electrodes. One electrode is arranged in the horizontal axis and the other electrode is arranged in the vertical axis to form a lattice structure, and then the capacitance formed at the intersection between the two axes is sequentially measured You can detect the capacitance change at a specific point. The electrode may be formed in the display area of the display. Accordingly, the electrode may be made of a transparent conductive material. For example, the electrode may include indium tin oxide (ITO).

The mutual capacitance type can be divided into an add-on type, a cover window integral type, and a display integral type. Among them, the display integrated type may be a system in which a transmitting electrode and a receiving electrode are built in a display. In the case of a display-integrated type, there may be an on-cell type in which a transparent electrode is patterned on a display panel, and an in-cell in which a transparent electrode is patterned in a display to form a sensor . Unlike an add-on type touch panel using a touch electrode provided on a separate touch panel, a common electrode can be used as a touch electrode for touch recognition in a touch panel using an in-cell type structure.

The display panel 110 may include a display area A / A and a non-display area N / A. A plurality of touch transmitters 120 ₁ to 120 _x , a plurality of touch receivers 130 ₁ to 130 _y , and a rolling transmitter 140 may be provided in the display area A / A of the display panel 110.

The plurality of touch transmitters 120 ₁ to 120 _x may be spaced apart from each other and disposed on the substrate. The plurality of touch transmitters 120 ₁ to 120 _x extend in the x-axis direction and may be in the form of a bar. The plurality of touch receiving units 130 ₁ to 130 _y may be spaced apart from each other and disposed on a substrate. The plurality of touch receiving units 130 ₁ to 130 _y may extend in the y-axis direction and may be bar-shaped. The plurality of touch transmitters 120 ₁ to 120 _x and the plurality of touch receivers 130 ₁ to 130 _y may be disposed orthogonally to each other. When the display area A / A is touched by the user's hand or object, the capacitance between the plurality of touch transmitters 120 ₁ to 120 _x and the plurality of touch receivers 130 ₁ to 130 _y is changed, Can be recognized. A signal for touch detection is provided in the plurality of touch transmission units 120 ₁ to 120 _x and a change in capacitance can be detected using a signal received from the plurality of touch reception units 130 ₁ to 130 _y . As the plurality of touch transmitters 120 ₁ to 120 _x and the plurality of touch receivers 130 ₁ to 130 _y are arranged in a matrix form, the positions of the touch receivers 130 ₁ to 130 _y whose capacitances are changed are detected . Thus, the area to be touched in the display panel can be detected.

The rolling transmission unit 140 may be disposed under the substrate. The rolling transmission unit 140 may extend in the x-axis direction and be arranged in a bar shape. The rolling transmission unit 140 and the touch reception units 130 ₁ to 130 _y may be arranged orthogonally to each other. When the display device 100 is rolled, the back surface of the substrate can be brought into contact with the display area A / A. When the display apparatus 100 is rolled, an overlapping area between the rolling transmission unit 140 and the touch reception units 130 ₁ to 130 _y may be generated. Accordingly, the capacitance between the rolling transmission unit 140 disposed on the back surface of the substrate and the plurality of touch receiving units 130 ₁ to 130 _y may be changed.

The control unit 150 recognizes the touch by detecting a change in capacitance between the plurality of touch transmitters 120 ₁ to 120 _x and the plurality of touch receivers 130 ₁ to 130 _y and transmits the sensed touch to the rolling transmitter 140 and the touch receiver 130 ₁ to 130 _y ) to detect the rolling of the display device 100.

The controller 150 controls the touch panel 110 to display the touch panel 110 using the signals transmitted from the plurality of touch transmitters 120 ₁ to 120 _x and the signals received from the plurality of touch receivers 130 ₁ to 130 _y , Can be detected. The control unit 150 may detect whether the display panel 110 is rolling by using signals transmitted from the rolling transmission unit 140 and signals received from the plurality of touch receiving units 130 ₁ to 130 _y .

In the case of the conventional rolling display device, the display device can be rolled by a separate mechanism by being provided in a separate mechanism. Therefore, it is necessary to separately provide a separate mechanism, so that the manufacturing cost of the display device can be increased. In the display device according to the embodiment of the present invention, the display device can be rolled without any additional mechanism, so that the manufacturing cost can be reduced. In addition, since the rolling transmission section is included in the display panel, the rolling detection of the display device can be performed using the touch receiving section without the need for a separate processing circuit for increasing the value of the panel.

2 is a view illustrating a rolled display device according to an embodiment of the present invention. Fig. 2 conceptually shows the arrangement relationship between the rolling transmission unit and the touch reception unit in the display device according to the embodiment.

Referring to FIG. 2, the display device 100 according to an exemplary embodiment of the present invention may include a plurality of touch receiving units 130 ₁ to 130 _y and a rolling transmitting unit 140. The plurality of touch receiving units 130 ₁ to 130 _y and the rolling transmitting unit 140 may be arranged orthogonally to each other. The plurality of touch receiving units 130 ₁ to 130 _y and the rolling transmitting unit 140 are arranged orthogonally to each other so that when the display device 100 is rolled, the rolling transmitting unit 140 disposed on the back surface of the substrate and the rolling transmitting unit 140 The touch receiving units 130 ₁ to 130 _y can be brought into contact with each other. Accordingly, the electrostatic capacitance between the touch receiving units 130 ₁ to 130 _y and the rolling transmitting unit 140 can be changed. When the plurality of touch receiving units 130 ₁ to 130 _y are in contact with the rolling transmitting unit 140, the capacitance may change. Due to a change in the electrostatic capacitance touch receiver (130 ₁ ~ 130 _y) of the plurality of touch receiver (130 ₁ ~ 130 _y) it can be seen that the rolled section of the display device 100 of the present invention.

The rolling transmission unit 140 is provided with a signal for detecting whether or not the rolling is performed and the change in capacitance can be detected using a signal received from the plurality of touch receiving units 130 ₁ to 130 _y . When the display 100 is rolled, the position of the rolling transmission unit 140 and the plurality of touch receiver (130 ₁ ~ 130 _y) a plurality of touch-receiving unit (130 ₁ ~ 130 _y) that the change in capacitance as the orthogonal Can be detected. Thus, the area where the display panel is rolled can be detected.

3 is a cross-sectional view of A-A 'of a rolled display 100 according to an embodiment of the present invention. Fig. 3 shows an example of the lamination structure of the display device according to the embodiment.

3, a rolled display device 100 according to an exemplary embodiment of the present invention includes a passivation layer 170, a rolling transmission unit 140, a substrate 171, a thin film transistor (TFT) 172, A light source 173, a touch transmitting unit and touch receiving units 120 and 130, a color filter 174, a black matrix 175, an adhesive layer 176 and a cover film 177. "

The passivation layer 170 may be disposed below the substrate 171. The passivation layer 170 may be disposed under the rolling transmission section 140. The passivation layer 170 may be in the form of a film type. The passivation layer 170 may be hydrophobic or contain an inorganic filler such as silicon oxide (SiO _x ) or silicon nitride (SiN _x ). As a result, the film type passivation layer 170 exhibits hydrophobic properties, so that moisture penetration can be prevented. The passivation layer 170 may slow down moisture penetration by an inorganic filler such as silicon oxide (SiO _x ) or silicon nitride (SiN _x ). The passivation layer 170 may protect the rolling transmission unit 220 from the external environment. The passivation layer 170 may have a high light transmittance and a high density. The passivation layer 170 may be deposited under the rolling transmitter 140 by Plasma Enhanced Chemical Vapor Deposition (PECVD).

The rolling transmission section 140 may be disposed under the substrate 171. [ The rolling transmission unit 140 may extend in the x-axis direction and be arranged in a bar shape. The rolling transmission unit 140 and the touch reception units 130 ₁ to 130 _y may be arranged orthogonally to each other. When the display device 100 is rolled, the back surface of the substrate 171 can be brought into contact with the display area A / A. Accordingly, the capacitance between the rolling transmission unit 140 disposed on the back surface of the substrate 171 and the plurality of touch receiving units 130 ₁ to 130 _y may be changed. The control unit 150 senses a change in capacitance between the plurality of touch transmission units 120 ₁ to 120 _x and the plurality of touch reception units 130 ₁ to 130 _y and recognizes the touch. The control unit 150 controls the rolling transmission unit 140 and the touch reception unit 130 ₁ to 130 _y ) to detect the rolling of the display device 100.

The substrate 171 may be made of a plastic material or the like that can be deformed by external pressure. The substrate 171 may have a structure in which a barrier coating is treated on both sides of a base film . For example, the substrate 171 may be made of various resin materials such as polyimide (PI), polycarbonate (PC), polyethylenepthanate (PEN), cyclic olefin polymer (COP), polyethyleneterephthalate (PET), polynorbornene . Further, the barrier coating is performed on the surfaces facing each other in the base material, and an organic film or an inorganic film may be used to maintain flexibility. In addition to plastic materials, materials having flexible characteristics such as thin glass or metal foil may be used. The substrate 171 has a flexible feature so that at least a portion of the substrate can be rolled or folded.

A thin film transistor (TFT) 172 may be disposed on the substrate 171. The TFT applies a driving voltage to a plurality of pixels P and may be implemented as an a-si TFT, a Low Temperature Poly Silicon (LTPS) TFT, or an OTFT (Organic TFT). The TFTs 172 may be implemented in various forms according to the embodiment of the display panel 110. [

The light source 173 may include an organic light emitting diode (OLED), a light emitting diode (LED), or the like. In FIG. 3, the case where the light source 173 (reference numeral) is an OLED has been described. The organic light emitting diode may be a self-luminous organic light emitting diode that emits light by itself using an electroluminescent phenomenon that emits light when a fluorescent or phosphorescent organic compound is supplied with an electric current. The light source 173 may be disposed on the substrate 171. The light emitted from the light source 173 may include, for example, any one of red light, green light, blue light, and white light.

The color filter 174 may be disposed on the light source 173. The color filter 174 may include, but is not limited to, filters such as red, green, and blue. The color filters 174 may be arranged in the order of red, green, and blue, but are not limited thereto. The color filter 174 allows light emitted from the light source 173 to pass therethrough, thereby increasing the color reproduction rate of the display device.

The plurality of touch transmitters 120 ₁ to 120 _x may be spaced apart from each other and disposed on the substrate. The plurality of touch transmitters 120 ₁ to 120 _x extend in the x-axis direction and may be in the form of a bar. The plurality of touch receiving units 130 ₁ to 130 _y may be spaced apart from each other and disposed on a substrate. The plurality of touch receiving units 130 ₁ to 130 _y may extend in the y-axis direction and may be bar-shaped. The plurality of touch transmitters 120 ₁ to 120 _x and the plurality of touch receivers 130 ₁ to 130 _y may be disposed orthogonally to each other. When the display area A / A is touched by the user's hand or object, the capacitance between the plurality of touch transmitters 120 ₁ to 120 _x and the plurality of touch receivers 130 ₁ to 130 _y is changed, Can be recognized.

A black matrix (BM) 175 may be disposed on the light source 173. The black matrix 175 may be deposited in the same layer as the color filter 174. The touch transmitting unit and the touch receiving units 120 and 130 may be disposed under the black matrix 175. [ The black matrix 175 can block the light emitted from the light source 173.

The adhesive layer 176 may be disposed on the substrate 171. The adhesive layer 176 may be disposed on the color filter 174. The adhesive layer 176 may be disposed on the black matrix 175. The adhesive layer 176 may include OCA (Optically Clear Adhesive), PSA (Pressure Sensitive Adhesive), OCR (Optically Clear Resin), and the like. The OCA may include an acrylic resin, a urethane resin, an epoxy resin, a silicone resin, or a combination thereof. The cover film 177 and the color filter 174 can be attached through the adhesive layer 176. [ The black matrix 175 and the cover film 177 may be attached through the adhesive layer 176. [

The cover film 177 may be disposed on the adhesive layer 176. The cover film 177 may have a shape such as a circle, a rectangle, a rhombus, or a hexagon. For example, if the display panel has a rectangular shape, it may have the same rectangular shape as the display panel. However, the size, shape, shape, and the like of the cover film 177 are not limited thereto. The cover film 177 may be bonded to the color filter 174 by an adhesive layer 176. The cover film 177 may be bonded to the black matrix 175 by an adhesive layer 176.

4 is a view illustrating a rolled display apparatus according to an embodiment of the present invention. Fig. 4 conceptually shows the arrangement relationship between the rolling transmission unit and the touch reception unit in the display device according to the embodiment. The embodiment shown in FIG. 4 differs from the embodiment described with reference to FIG. 2 in that a rolling receiving unit is further included, and description overlapping with those described with reference to FIGS. 1 to 3 will be described Can be omitted.

Referring to FIG. 4, the rolled display apparatus 200 according to the second embodiment of the present invention may include a display panel 210 having a rolling transmission unit 220 and a rolling reception unit 230.

The rolling transmission unit 220 may be disposed under the substrate. The rolling transmission unit 220 may be disposed in the non-display area N / A of the display panel 210. [ The rolling transmission unit 220 may be disposed, for example, in a bezel area of a non-display area of the display panel 210. [ The rolling transmission unit 220 may extend in the x-axis direction and have a bar shape.

The rolling receiving unit 230 may be disposed on the substrate. The rolling receiving unit 230 may be disposed in a non-display area of the display panel 210. [ The rolling receiving unit 230 may be disposed, for example, in a bezel area of the non-display area of the display panel 210. [ The rolling receiving units 230 may be spaced apart from each other. The rolling receiving units 230 may be spaced apart from each other and disposed in the x-axis direction. However, the position, shape, and the like of the rolling receiving unit 230 are not limited thereto.

When the display panel 210 is rolled, the rolling transmitting unit 220 disposed on the back surface of the substrate and the rolling receiving unit 230 disposed on the substrate can be brought close to each other. Therefore, a capacitance change between the rolling transmission unit 220 and the rolling reception unit 230 may occur. A separate ROIC (Readout IC) between the rolling transmission unit 220 and the rolling reception unit 230 is provided so that the rolling of the display panel 210 can be recognized by the change in capacitance.

It can be seen from the viewpoint of signal detection from the rolling receiving section 230 that the rolling transmission section 220 and the rolling reception section 230 are close to each other and the rolling transmission section 220 and the rolling reception section 230 are not close to each other, The size is detected differently. Accordingly, the degree of proximity between the rolling transmission unit 230 and the rolling reception unit 220 can be grasped, and the degree of rolling of the display panel can be detected.

In the case of the conventional rolling display device, the display device can be rolled by a separate mechanism by being provided in a separate mechanism. Therefore, it is necessary to separately provide a separate mechanism, so that the manufacturing cost of the display device can be increased. In the display device according to the embodiment of the present invention, the display device can be rolled without any additional mechanism, so that the manufacturing cost can be reduced.

5 is a view illustrating a rolled display device according to an embodiment of the present invention.

5, the rolled display device 300 according to an exemplary embodiment of the present invention may include a display panel 310, a rolling transmission unit 320, and a touch receiving unit 330.

The display panel 310 may include a rolling transmission unit and a touch reception unit 320, 330.

The rolling transmission unit 320 may be included in the display panel 310. The rolling transmission unit 320 may extend in the x-axis direction and be arranged in a bar shape. The touch receiving unit 330 may be included in the display panel 310. The touch receiving unit 330 may be formed in a zigzag pattern. The shape, pattern, and the like of the touch receiving unit 330 are not limited thereto.

 When the display apparatus 300 is rolled, the rolling transmission unit 320 disposed under the substrate can be in contact with the touch receiving unit 330 on the substrate. When the touch receiving unit 330 is a zigzag pattern, there may be more contact areas than when the rolling transmitting unit and the touch receiving unit are arranged orthogonally to each other. Accordingly, even if the rolling transmission unit and the touch reception unit 330 in a certain area can not detect a change in the capacitance, the rolling transmission unit 320 and the touch reception unit 330 in different areas can detect a change, This can help improve reliability.

6 is a view illustrating a rolled display apparatus according to an embodiment of the present invention. In the conventional display device, a separate mechanism is provided on one side of the display device so that the display device can be rolled by the mechanism. Further, when the display device is rolled by a separate mechanism, the conductive material on the back surface of the substrate and the touch panel of the display device can be brought into contact with each other to recognize the rolling of the display device. In this case, a separate mechanism must be provided. If the display device is not rolled properly, the conductive material may not touch the touch panel, and the display device may not be able to properly recognize the rolling.

In the case of a display device according to an embodiment of the present invention, a touch transmitter, a touch receiver, and a rolling transmitter may be included in a display panel. Therefore, even if the display device is not rolled properly and there is a slight gap on the touch panel on the substrate and the rolling transmission part on the back surface of the substrate, the display device of the present invention can recognize the rolling, so that the reliability of the rolling detection can be improved.

7 is a block diagram of a controller 150 according to an embodiment of the present invention.

The control unit 150 may include a high pass filter 151 and a band pass filter 152. The touch transmitter may be connected to the high pass filter 151. The touch transmitter may be connected to the high pass filter 151 to have a frequency of 100 kHz or more.

The rolling transmission unit may be connected to the band-pass filter 152. The bandpass filter 152 may be a circuit that filters low frequency and high frequency signals to pass only a specific frequency domain. The rolling transmission unit may be connected to the band-pass filter 152 and may have a frequency of 100 Hz to 1 kHz. Therefore, the touch transmitting unit and the rolling transmitting unit may have frequencies in different areas, so that interference between each other may not occur. In addition, the rolling transmission unit can have the effect of avoiding low-frequency noise by using the band-pass filter 152. [

8 is a view showing time-division driving of a rolling and touch display according to an embodiment of the present invention.

Referring to FIG. 8, in the case of rolling and touching, time division driving may be possible.

Since the touch receiving unit senses rolling and touching, interference may occur between signals transmitted from the rolling and touch transmitting units when time division driving is not performed.

The rolling transmission units may be arranged in one line rather than a plurality. Therefore, when the display device according to the present invention is rolled, the rolling transmitting portion disposed on the back surface of the substrate can come into contact with the touch receiving portion on the substrate. At this time, since the rolling transmission unit is arranged in one line, the rolling can be recognized only by the change of the capacitance between the rolling transmission unit and the touch reception unit without measuring the coordinates of the x axis and the y axis.

 However, since the touch transmitter and the touch receiver are arranged in a plurality of lines, when the capacitances of the touch transmitter and the touch receiver are changed by the touch of the user's hand or object on the touch panel, the coordinates of the x- and y- Device. Therefore, in order to recognize the touch on the display device, it is necessary to measure a change in capacitance along a plurality of lines, so that the time consuming time may be larger than that of a rolling transmission unit composed of one line. Accordingly, since time measured in the touch recognition and the rolling recognition are different from each other, it is possible to perform time division driving between the rolling recognition and interference between touch and rolling signals can be avoided.

Therefore, it is possible to perform time-divisional driving between the touch and the rolling. Therefore, it is possible to recognize the rolling before implementing the display after the touch is recognized, and to perform time division driving between touch and rolling and display. According to an embodiment of the present invention, as shown in FIG. 8, touch sensing is performed in a touch interval, sensing is performed in a rolling interval in the rolling interval, and in a display interval, A screen resizing operation to the sensing area can be performed with respect to the touch implementation and the rolling sensing area.

9 is a diagram illustrating a driving algorithm according to an embodiment of the present invention.

Referring to FIG. 9, it is checked whether the display device is turned on (S1). After confirming whether the display device is turned on and on, whether or not the display device is rolled can be determined (S2). Whether or not the display device is rolled in step S2 indicates that it is determined whether or not the display device has already been rolled. Whether or not the display device is rolled can be detected by any one of the embodiments described with reference to Figs. After the determination as to whether or not rolling exists, it is possible to determine whether or not there is a touch. (S3) After the determination as to whether or not there is a touch, the degree of rolling of the display device can be sensed. (S4)

If the display device is turned on in step S1, it is determined whether or not the display device is rolled in step S2. When the display device is rolled in step S2, the degree of rolling of the display device in step S4, that is, when the display device is rolled, the position where the capacitance between the rolling transmission part and the touch receiving part of the display device changes is sensed, The rolled area can be known.

If the rolling is not made in step S2, the presence or absence of touching in step S3 can be confirmed. That is, it is possible to confirm whether or not the capacitance between the touch transmitter and the touch receiver is changed.

If the touch is recognized in step S3, the display device implements the touch according to the capacitance change between the touch transmitter and the touch receiver, and the process returns to step S2 to determine whether or not the display device is rolling. If the touch is not confirmed in step S3, if the predetermined time touch is not confirmed, the degree of rolling of the display device in step S4. That is, when the display device is rolled, the position where the capacitance between the rolling transmission part and the touch reception part of the display device changes is sensed, and the area where the display device is rolled can be known.

In step S4, the degree of rolling may be continuously checked, and then the image of the display device may not be outputted in the rolled area or the image may be displayed in the rolled area and the non-rolled area according to the user's setting.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood that various modifications and applications are possible. For example, each component specifically shown in the embodiments can be modified and implemented. It is to be understood that all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

00: display device 110: display panel 120: touch transmitter
130: Touch receiving unit 140: Rolling transmission unit 150:

Claims (7)

A display panel including a substrate, a touch transmitter and a touch receiver on the substrate, and a rolling transmitter below the substrate;
And a controller for detecting a contact area of the display panel by using a signal transmitted from the touch transmitter and a signal received from the touch receiver and controlling the touch panel based on a signal transmitted from the rolling transmitter and a signal received from the touch receiver, And a control unit for detecting whether or not rolling is performed. The display device according to claim 1, wherein the rolling transmission unit and the touch receiving unit are orthogonal to each other. The display device of claim 1, wherein the touch receiving unit is provided in a zigzag pattern. The display device according to claim 1, wherein the control section separates the first period for detecting the contact area of the display panel and the second period for detecting whether the display panel is rolling or not, and time-divisionally drives the display panel. The display device of claim 1, wherein a frequency band of a signal transmitted from the rolling transmission unit is different from a frequency band of a signal transmitted from the touch transmission unit. A display panel including a substrate, a rolling receiver on the substrate, and a rolling transmitter under the substrate;
A control unit for detecting whether the display panel is rolled by using a signal transmitted from the rolling transmission unit and a signal received from the rolling reception unit,
. The display device according to claim 5, wherein the rolling transmission unit and the rolling reception unit are provided in a non-display area of the display panel.

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