KR101093615B1 - 3D sensing panel - Google Patents

Abstract

The present invention relates to a three-dimensional touch panel that can sense the pressure, and more specifically, a touch pad unit that can be deformed under a certain pressure; A two-dimensional touch panel formed of an X-axis electrode part and a Y-axis electrode part formed on an upper surface of the touch pad part; It relates to a three-dimensional touch panel is formed on the lower surface of the touch pad portion to include a Z-axis electrode for sensing the pressure, it is possible to detect the degree of pressure of the contacted object.

Description

3D sensing panel {3D sensing panel}

The present invention relates to a three-dimensional touch panel that can sense the pressure touched on the touch screen.

Modern portable terminal devices, such as personal digital assistants (PDAs), portable multimedia players (PMPs), MP3 players, cellular phones, and the like, are becoming smaller and smaller in size for easy portability and portability.

Accordingly, a touch screen method is adopted to allow a user to select and input information more conveniently in place of the conventional key button input method. The touch screen method can directly input or output information by interfacing with a computer through a screen, and if a character or a specific position on the screen is touched by a human hand or an object, the touch screen detects coordinates of the touched position. . Then, specific processing corresponding to a menu of coordinates selected by the software is executed using the coordinates. Accordingly, the touch screen provides a function as an information display unit and a function as an input unit.

In the operation of the conventional two-dimensional touch panel, a plurality of touch sensors are arranged in each row / column so that the x-axis and y-axis coordinates can be measured at each layer. Each touch sensor increases the capacitance value when a target object such as a finger approaches or touches the touch screen, and calculates touch coordinates by using a touch sensor having an increased capacitance value. In the case of the two-dimensional touch panel of the above method, there is a problem that can not sense the pressure to be touched.

The present invention has been made to solve the above problems, the present invention provides a three-dimensional touch panel including a Z-axis electrode having a pressure sensor in the existing two-dimensional touch panel.

The present invention to achieve the above object,

In the two-dimensional sensing panel consisting of an X-axis electrode and a Y-axis electrode, it provides a three-dimensional touch panel characterized in that it comprises a Z-axis electrode formed on the lower surface of the two-dimensional sensing panel to sense the pressure. The Z-axis electrode is characterized in that the sensors for detecting the pressure pressing on the upper pad are formed at regular intervals in the row and column direction.

The present invention is a touch pad that can be deformed under a certain pressure; A two-dimensional touch panel formed of an X-axis electrode part and a Y-axis electrode part formed on an upper surface of the touch pad part; Provided is a three-dimensional touch panel formed on the lower surface of the touch pad unit including a Z-axis electrode unit for sensing the pressure. And a coating film layer formed on the two-dimensional touch panel, wherein an insulating layer for insulating different electrode parts is formed between the X-axis electrode and the Y-axis electrode constituting the two-dimensional touch panel. .

In the present invention, it further comprises a coating film layer formed on the lower surface of the Z-axis electrode portion, wherein the touch pad portion is 0.5mm or more, characterized in that made of a flexible material that can sense the pressure.

According to the present invention, a Z-axis electrode is formed on a two-dimensional touch panel, and through a pressure sensor installed on the Z-axis electrode, it is beyond the conventional method that only two-dimensional coordinate recognition can be performed. Various inputs are possible, which can be applied to existing mice or games.

1 is a cross-sectional view of a three-dimensional touch panel according to an embodiment of the present invention.
2 is a plan view illustrating an X-axis electrode and a Y-axis electrode of a conventional two-dimensional touch panel.
3 is a plan view illustrating a Z-axis electrode of a three-dimensional touch panel according to an exemplary embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described the present invention in more detail. The accompanying drawings show exemplary forms of the present invention, which are provided to explain the present invention in more detail, and the technical scope of the present invention is not limited thereto.

The present invention relates to a three-dimensional touch panel capable of sensing pressure.

A pressure sensing touch screen according to an embodiment of the present invention, in a two-dimensional touch panel including an X-axis electrode and a Y-axis electrode, the touch pad portion and the touch pad portion formed on the lower surface of the two-dimensional touch panel It is formed on the lower surface, and includes a Z-axis electrode portion that can sense the pressure.

The pressure sensing Z-axis electrode portion is formed of a plurality of pressure sensing sensors arranged in parallel in a row and column direction with a predetermined width.

A touch pad part that can be deformed by receiving a predetermined pressure according to an embodiment of the present invention; A two-dimensional touch panel formed of an X-axis electrode part and a Y-axis electrode part formed on an upper surface of the touch pad part; Provided is a three-dimensional touch panel formed on the lower surface of the touch pad unit including a Z-axis electrode unit for sensing the pressure.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily understand and implement the present invention.

1 is a cross-sectional view of a three-dimensional touch panel according to an embodiment of the present invention, Figure 2 is a plan view of a two-dimensional touch panel including an X-axis electrode and a Y-axis electrode.

The X-axis electrode 100 and the Y-axis electrode 200 are arranged in a lattice manner, for example, when the X-axis electrode 100 is arranged in parallel in the x-axis direction, the Y-axis electrode 200 is y Parallel to the axial direction. In contrast, when the X-axis electrode 100 is arranged in parallel in the y-axis direction, the Y-axis electrode 200 is arranged in parallel in the x-axis direction. When the film layer 500 is positioned between the X-axis electrode and the Y-axis electrode, and there is external contact in the two-dimensional plane, the film layer 500 may detect the positions between the electrode portions that are perpendicular to each other. This prevents the contact between the different electrode parts.

The film layer 500 is preferably formed of a non-conductive object, and includes a material such as polyethylene or ceramic to serve as an insulator. Then, the coating layer 600 is formed on the X-axis electrode 100, and serves to protect the two-dimensional touch panel from the outside, mainly using a PET film. The coating layer 600 may be formed on the lower Z-axis electrode 400.

In addition, the lower surface of the two-dimensional touch panel is formed with a touch pad 300 that can sense the external pressure, the touch pad 300 is preferably a material that can act sensitive to the pressure, the pressure Thereby facilitating the transfer of pressure to the pressure sensing sensor of the lower Z-axis electrode.

The Z-axis electrode 400 is positioned on the lower surface of the touch pad unit 300, and as illustrated in FIG. 3, the Z-axis electrode surface is spaced apart from the touch pad unit by a predetermined distance or in direct contact with each other. To transmit pressure to the individual pressure sensing sensors 400-1 and 400-2.

The Z-axis electrode 400 may be formed of a plurality of pressure sensors having a predetermined width and arranged in parallel in one axis direction, or a plurality of pressures having a predetermined size and arranged in parallel in the row and column directions. It can be formed with sensors. This will be described in detail with reference to FIG. 3.

As shown in FIG. 3, the plurality of pressure sensors 400-1 and 400-2 formed on the Z-axis electrode are preferably closely arranged to have a size smaller than the size of the object touched on the touch screen, and the touch pressure. As the number increases, the number of pressure sensing sensors that are in contact with each other may be increased, or when a pressure is applied, the external pressure may be detected by directly calculating a pressure value.

The display device may further include a grating portion to maintain a predetermined interval without the two-dimensional touch panel and the Z-axis electrode surface contacting each other.

When the touch screen is touched by an external target object, the 2D touch panel, the insulating layer, and the touch pad part are bent with a predetermined curvature toward the touched direction by the pressure of the target object. Therefore, the position is determined by the two-dimensional touch panel, and many deformations occur according to the pressure degree by the touch pad part, and the change value of the pressure according to the deformation degree is changed by the pressure sensor of the Z-axis electrode part by the Z-axis change value. You can detect the touch by reading the.

In addition, in order to be able to detect the touch pressure in more detail, the plurality of pressure sensors may be densely arranged or may be performed by sensitizing a reaction at the contact portion between the touch pad part and the pressure sensing sensor. The relative pressure may be calculated by using a difference between capacitance values when a sensor for detecting pressure is in contact with a plurality of sensors.

The three-dimensional touch panel according to the present invention may be formed of a plurality of pressure sensors having a predetermined width and arranged in parallel in one axis direction, and have a plurality of pressures having a predetermined size and arranged in parallel in the row and column directions. It can be formed with sensors.

In addition, according to the exemplary embodiment, a case in which touch pressure cannot be accurately detected due to a small increase in capacitance due to contact with a plurality of pressure sensors may occur, and in this case, sensing electrodes may be further provided at both ends of the respective sensors. can do. By additionally providing sensing electrodes at both ends of the plurality of pressure sensors, it is possible to effectively sense the touch pressure by increasing the difference in the measured capacitance value.

By implementing a touch screen that can sense the touch pressure, it can be applied to various applications, for example, only an input touch having a touch pressure above the threshold by setting a predetermined pressure threshold can activate the operation of the touch screen. User interface and the like can be built. Therefore, malfunctions and operational mistakes can be reduced, and a new input interface to the touch screen can be formed.

So far, the present invention has been described with reference to the preferred embodiments, and those skilled in the art to which the present invention pertains to the detailed description of the present invention and other forms of embodiments within the essential technical scope of the present invention. Could be implemented.

Here, the essential technical scope of the present invention is shown in the claims, and all differences within the equivalent range will be construed as being included in the present invention.

100: X-axis electrode 200: Y-axis electrode
300: touch pad 400: Z-axis electrode
400-1, 400-2: pressure sensor
500: film layer 600: coating layer

Claims (6)

delete delete A touch pad part deformed by external pressure;
A two-dimensional touch panel formed on an upper surface of the touch pad unit and formed of an X-axis electrode unit and a Y-axis electrode unit for detecting a position by changing capacitance when there is external contact; And
It is formed on the lower surface of the touch pad portion spaced apart, and comprises a Z-axis electrode portion having a plurality of pressure sensing sensors,
3D touch panel, characterized in that for detecting the touch pressure by calculating a pressure value from the plurality of pressure sensor through the corresponding capacitance change according to the deformation of the touch pad unit.
The method according to claim 3,
The three-dimensional touch panel further comprises a coating film layer formed on the two-dimensional touch panel.
The method according to claim 3,
The three-dimensional touch panel further comprises a coating film layer formed on the lower surface of the Z-axis electrode.
The method according to claim 3,
The touch pad part has a thickness of 0.5 mm or more and is made of a flexible material capable of sensing pressure.

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