KR101058928B1 - Input device for display with pressure sensor - Google Patents

Abstract

A display input device having a pressure sensor is disclosed.

The input device according to the present disclosure can realize slimming while improving the contact sensitivity. Such an input device,

A window providing a contact surface to a user;

A support plate disposed in a position facing the window;

A spacer member elastically fixing the window and the support plate at regular intervals;

A sensor unit provided on an upper side of the support plate and having pressure sensors for outputting a resistance value that is variable to a pressing force; And

It is provided on one surface of the window comprises a pressing member for transmitting a pressing force to the pressure sensor.

Pressure sensor, force sensor, display input device, resistance value change

Description

Input device with pressure sensor for display device

The present invention relates to an input device for a display having a pressure sensor, and more particularly, to an input device that can be slimmed while improving the contact sensitivity, thereby facilitating the use of a product.

BACKGROUND ART A touch window type input device of a method of detecting a contact with an external object and processing a touch detection signal is known.

With the increasing use of mobile handheld devices such as cell phones and PDAs, there is a need for smaller, lighter and slimmer input devices.

The technologies of the touch sensor are known as capacitive, resistive, near field imaging (NFI), sound wave, and infrared.

Such touch sensors present challenges related to recognition of contact inputs, positioning of contact inputs with respect to the touch sensing structure of the sensor, reliability, size, weight, and ease of use.

International Publication No. WO 2002/84578 discloses a technique for "tangential force control in a touch positioning device."

In the international publication, when the touch surface is pressed, the contact force has a vertical component perpendicular to the touch surface and a tangent component parallel to the touch surface, where the tangential component of the contact force is about 1/3 of the vertical component. A solution to possible tangential error can be found.

Korean Unexamined Patent Application Publication No. 2007-0035831 discloses a technology for a "contact sensing device with improved contact sensing signal processing function."

This disclosed technique discloses a method that can be placed in a large area and quickly detect the presence or absence of contact with external objects.

The technique disclosed in the first publication is a structural complement to the problems caused by the structural features of the input device.

In addition, the technique disclosed in the second publication solves a structural problem by improving a signal processing function.

However, in view of the fact that the pressure sensor is deformed by pressing from the top and causing a change in the resistance value, it does not suggest a solution for durability and resilience of the structurally pressed part.

In addition, it does not disclose a method of structurally improving the contact sensitivity and slimming.

In other words, the input device using a conventional pressure sensor has a pressure sensor consisting of a plurality of layers, so the gap for the touch operation must be formed between these layers, so that the thickness of the pressure sensor module is inevitably increased.

As the thickness of the pressure sensor module increases, the application of the pressure sensor module is restricted in application.

In order to solve the problems of the prior art of the present invention, an object of the present invention is to improve the sensitivity of the product by improving the contact sensitivity, and equipped with a pressure sensor that can be widened in electronic applications by slimming the sensor module An input device for a display is provided.

In order to realize the object of the present invention, a window for providing a contact surface to the user, a sensor support plate disposed in a position facing the window, a spacer member for elastically fixing the window and the support plate at regular intervals, Input for display having a pressure sensor provided on the upper side of the sensor support plate for outputting a resistance value that is variable to the pressing force and a driving member provided on one side of the window to transfer the pressing force to the tactile sensor Provide a device.

The spacer member may be a high elastic urethane resin, or a similar material.

The pressure sensor is arranged at least in four places of the support plate.

In addition, the pressure sensor is formed in the fixed end and the free end of the sensor portion of the base film on which the metal layer is formed to increase the contact sensitivity.

As a means for minimizing the influence on the external environment of the tactile sensor, a compensation sensor unit may be installed adjacent to the sensor unit.

In the input device for a display according to the present invention, since the sensor unit is formed of a fixed end and a free end, when the pressing force is transmitted from the user, the base film is bent and the metal resistance layer of the free end layer laminated on the base film causes deformation. .

Therefore, since it operates even with a small force applied from the outside, the external contact force can be quickly detected, so it can be applied to all electronic applications, and the sensor module can be made slim because the touch force can be detected only by bending the sensor unit.

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

1 is an exploded perspective view of an input device according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the combination of the input device according to an embodiment of the present invention, Figure 3 is a pressure sensor unit of the input device according to an embodiment of the present invention As a top view, 2 denotes a sensor support plate.

The sensor support plate 2 may be made of a material such as SUS, PC, PI, PET, PMMA, Al metal or plastic in a plate shape.

The sensor support plate 2 according to the present embodiment has a substantially quadrangular shape as shown in FIG. 1, and has at least one or more operating regions 4 at each corner portion to which four sides are connected. have.

The operating regions 4 are made by cutting four sides of the sensor support plate 2.

The sensor part 6 is attached to the sensor support plate 2. The sensor unit 6 may have a structure in which a plurality of pressure sensors 8 have a predetermined resistance layer of a metal on the base film and are wired to change the resistance value according to the pressing force.

As shown in FIGS. 1 and 3, a pressure sensor in which metal resistive patterns 12 are wired to the base film 10 is used. In this embodiment, the pressure sensor 8 is used as the base film 10. It is provided based on each corner but can be added to one side as needed.

In particular, in this embodiment, the pressure sensor 8 has a cantilever structure in which one end is integrally formed on the base film 10 and the other end is formed as a free end.

The base film 10 has a structure in which four sides are formed in a band shape and is formed in an approximately quadrangular shape, and wires are formed on these four sides to be connected to the pressure sensors 8.

The pressure sensors 8 of the cantilever structure are provided at positions corresponding to the operating region 4. As such, when the pressure sensors 8 are positioned corresponding to the operation region 4, the pressure sensor 8 of the cantilever structure according to the present embodiment causes bending deformation even when a small external force is applied to the free end side. Change is evident.

The pressing member 14 is used as a means for transmitting the pressing force to the pressure sensor 8 in a posture opposite to the sensor unit 6.

The pressing member 14 may be formed of protrusions 16 having a rounded end portion, and the protrusions may be integrally formed with a band-shaped polymer film 18. The protrusions may not be formed integrally with the polymer film but may be formed of only the protrusions without the film.

When the protrusions 16 are integrally formed on the film 18, it is easy to position the protrusions 16 in a position corresponding to the pressure sensors 8 of the sensor unit 6. Preferably, the protrusions may be sensitively applied to less pressing force if they are positioned corresponding to the free end side of the pressure sensor.

The pressing member 14 is substantially bonded to one surface of the window 20 that the user makes contact for pressing.

The window 20 may be made of synthetic resin or tempered glass. The window 20 may be provided with a printed layer at the periphery or at a suitable location. The printed layer may be used as a means for preventing the inside of the input device from entering through the window 20 or may be a sign, a character, a symbol, etc. for recognizing the user as another input device.

The window 20 is bonded to the sensor part 6 with a spacer 22 therebetween at a predetermined interval. The spacer 22 is also used as a sealing means of the module because it is bonded over all four sides of the window 20.

At this time, the interval between them is sufficient if the projection 16 does not directly contact the pressure sensor (8).

In the present embodiment, the spacer 22 is used to restore the original state after the pressure sensor is pressed by an external force when a urethane material of high elasticity is used. Any material that can satisfy these effects can be used as the spacer.

As shown in FIG. 3, in the input device according to the embodiment of the present invention, the pressure sensor 8 has a cantilever structure in the base film 10 of the sensor unit 6 in order to increase the sensitivity of the sensor. Able to know.

In the input device of the present invention as described above, as shown in FIG. 2, the pressing member 14 is directly attached to the window 20, and the window 20 has the sensor unit 6 in which the pressure sensors 8 are formed. And the pressure sensors 8 of the sensor part 6 face the operating area 4 where bending deformation can occur in the downward direction, so that a gap does not have to be formed between the respective components. Slimming is possible.

That is, according to the present exemplary embodiment, since the operating area is formed by cutting a corner of the sensor support plate, a part of the area where the pressure sensors are located is not spaced apart for the operation of the pressure sensor. This is because there is no need to create a gap.

In particular, since the pressure sensor 8 according to the present invention forms a cantilever structure in which one end is fixed and the other end is configured as a free end, bending may occur easily even by a small contact force. In addition to the cantilever structure shown in the embodiment of the present invention, various shapes consisting of one end fixed and the other end free may be applied.

That is, when the input device according to the present embodiment is used as an input device of a display, the spacer having elastic force by the pressure when the user applies pressure directly to the surface of the window 20 or through other means As the 22 is compressed, the protrusions 16 of the pressing member 14 press the pressure sensors 8.

This pressing force causes a change in the resistance value from the pressure sensor 8. In particular, in the present invention, since the pressure sensor has a cantilever structure, a change in the resistance value occurs even at a small pressing force, thereby providing excellent contact sensitivity.

Figure 4 is a side cross-sectional view of an input device according to another embodiment of the present invention, all components are the same as the above embodiment, but it can be seen that the coupling positions of the respective components are different.

That is, it can be seen that the sensor support plate 2 is bonded to the lower side of the window 20, and the sensor part 6 is positioned below the sensor support plate 2.

It can be seen that the pressure member 14 having the protrusions 16 formed thereon is attached to the lower side of the sensor part 6 with the spacer 22 interposed therebetween.

In the input device of this embodiment, since the operating region 4 formed in the sensor support plate 2 and the pressure sensor 8 correspond to each other, the same effects as those of the cantilever structure of the first embodiment can be obtained.

However, the pressure sensor 8 of this structure has a difference in that the bending direction becomes upward when pressure is applied, and in the first embodiment, the bending direction of the pressure sensor becomes downward.

1 is an exploded perspective view of an input device according to an embodiment of the present invention.

2 is a cross-sectional view of a combination of the input device according to an embodiment of the present invention.

Figure 3 is a plan view of the tactile sensor applied to the input device of the present invention.

4 is a cross-sectional view illustrating a coupling of an input device according to another embodiment of the present invention.

Claims (9)

A window providing a contact surface to a user; A sensor support plate disposed in a position facing the window; A spacer member elastically fixing the window and the sensor support plate at regular intervals; A sensor unit provided on an upper side of the sensor support plate and having pressure sensors for outputting a resistance value that is variable to a pressing force; And A pressure member provided on one surface of the window to transmit a pressing force to the pressure sensor, The pressure sensor of the sensor unit is a display input device having a pressure sensor, characterized in that the one end is fixed to the sensor portion and the other end is a cantilever structure consisting of a free end. The method according to claim 1, The spacer is an input device for a display having a pressure sensor, characterized in that the material having an elastic force. The method according to claim 2, The spacer is an input device for a display having a pressure sensor, characterized in that the urethane material. The method according to claim 1, The support plate is an input device for a display having a pressure sensor having an operating region formed by cutting the corner portion. delete The method according to claim 1, The pressing member is formed of a projection, the input device for a display having a pressure sensor bonded to one surface of the window at a position opposite to the free end side of the pressure sensor. The method according to claim 1, The sensor support plate is a display input device having a pressure sensor made of any one of SUS, PC, PI, PET. The method according to claim 1, And the spacer is bonded to all four surfaces of the window and has a pressure sensor used as a sealing means. A window providing a contact surface to a user; A sensor support plate disposed in a position opposite the window to provide an operating area; A sensor unit having a pressure sensor positioned corresponding to the operating region of the sensor support plate; A pressing member having a protrusion located below the pressure sensor of the sensor unit; Located between the pressing member and the sensor unit includes a spacer member for causing the elastic deformation by the external pressing force,  The pressure sensor of the sensor unit is a display input device having a pressure sensor, characterized in that the one end is fixed to the sensor portion and the other end is a cantilever structure consisting of a free end.

Images