CN111831168A - Touch device with light emitting function and light emitting control method thereof - Google Patents

Abstract

The invention relates to a touch device with a light-emitting function and a light-emitting control method thereof.A sensing layer is used for acquiring touch information and force information of a touch object, and a control unit changes a light-emitting mode of a light-emitting module according to the acquired touch information and force information so that a user can intuitively know whether an input mode is a desired input mode at the first time, thereby increasing the use convenience and avoiding mistaken triggering of incorrect instructions.

Description

Touch device with light emitting function and light emitting control method thereof

Technical Field

The present disclosure relates to touch devices, and particularly to a touch device with a light emitting function and a light emitting control method thereof.

Background

The touch device is an input interface widely used in electronic devices at present, and determines a touch event to be triggered by detecting information such as a contact position, contact time, movement rate and the like of a touch object such as a hand or a pen on the touch device by a user so as to correspond to an instruction to be executed by the user. The initial stage of the touch event is a simple single-finger event, such as clicking, dragging, etc., and the subsequent stages gradually add multi-finger gestures as touch events, such as zooming in and zooming out, scrolling, rotating, etc., to execute more complex instructions.

However, due to the complicated input method, the operation is not intuitive, and it is not easy for the user to detect whether the current input method satisfies the desired instruction, such as whether the touch method or the force application amount is sufficient to trigger a specific instruction, and the user often needs to wait until the electronic device executes the corresponding instruction to determine whether the input method is desired, which may cause more false touch phenomena or the user has to try different input methods to determine whether the desired instruction can be executed, thereby causing inconvenience in use.

Disclosure of Invention

In view of the above, the present invention is directed to an improvement of a touch device, so that a user can obtain information of an input mode through the touch device itself.

To achieve the above object, the present invention provides a light emission control method for a touch device, the touch device having a touch input layer, an induction layer and a light emitting module, wherein the control method comprises the following steps:

acquiring touch information and force information of at least one touch object correspondingly positioned on the touch input layer through the induction layer;

and changing the light emitting mode of the light emitting module according to at least one of the touch information and the force information.

The present invention further provides a touch device with a light emitting function, which includes:

a touch input layer;

a light-emitting module disposed under the touch input layer, the light-emitting module including at least one light source;

the sensing layer is arranged below the touch input layer;

a control unit electrically connected to the light emitting module and the sensing layer, and executing the following steps:

acquiring touch information and force information of at least one touch object correspondingly positioned on the touch input layer through the induction layer;

changing a light emitting mode of the light emitting module according to at least one of the touch information and the force information.

The invention has the advantages that by changing the light-emitting mode of the light-emitting module, a user can directly obtain the information of the input mode through the touch device, so as to confirm whether the input mode is desired at the first time, and further improve the accuracy of input.

The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.

Drawings

Fig. 1 is a schematic side cross-sectional view of a touch device according to the present invention.

FIG. 2 is a block diagram of a touch device according to the present invention.

Fig. 3 is a schematic top view of a part of components of another embodiment of a touch device of the invention.

Fig. 4 is a flowchart of a control method of the present invention.

Fig. 5 is a schematic top view of the touch device in a state without a touch object according to the present invention.

Fig. 6 to 15 are schematic top views of the touch device of the present invention in different states with a touch object.

Wherein the reference numerals

10 touch input layer 20, 20A light emitting module

200A first point light source 21, 21A light guide plate

22 point light source 22A second point light source

23A shield unit 30 touch sensing unit

40 force sensor 50 control unit

61 index finger and 62 middle finger

63 thumb and 64 palm

101. 102, 103 light spots 104, 105, 106, 107 light bar

Detailed Description

The technical means adopted by the invention to achieve the preset purpose are further described below by combining the accompanying drawings and the embodiments of the invention.

Referring to fig. 1 and 2, the touch device with a light emitting function of the present invention includes a touch input layer 10, a light emitting module 20, a sensing layer and a control unit 50.

The touch input layer 10 is a transparent or semi-transparent glass or polyester film (Mylar), and the surface thereof is used for a user to perform touch operation. The light emitting module 20 and the sensing layer are disposed below the touch input layer 10, the sensing layer is used for obtaining touch information and force information, the sensing layer comprises a touch sensing unit 30 and a plurality of force sensors 40, the light emitting module 20 and the touch sensing unit 30 are disposed between the touch input layer 10 and the force sensors 40, wherein the positions of the light emitting module 20 and the touch sensing unit 30 can be exchanged, in one embodiment, the light emitting module 20 is disposed above the touch sensing unit 30; in another embodiment, the touch sensing unit 30 is disposed on the light emitting module 20. In the present embodiment, the touch sensing unit 30 includes a plurality of touch sensors, and is mainly capable of detecting a capacitance change formed between the touch sensors and a touch object, and obtaining corresponding touch information through the capacitance change. The force sensors 40 are distributed under the light emitting module 20 and the touch sensing unit 30, and in one embodiment, the force sensors 40 are distributed at four corners relatively to collect force information evenly. However, the type of the force sensor 40 is not limited to the above embodiments, and the force information can be obtained by a force sensor in the form of a capacitive sensor, a piezoelectric material, and a strain gauge (strain gauge).

In an embodiment (as shown in fig. 1), the light emitting module 20 includes a light guide plate 21 and a plurality of point light sources 22, the light guide plate 21 is disposed below the touch input layer 10, the point light sources 22 are disposed at a side of the light guide plate 21, and a light emitting direction of each of the point light sources 22 faces the light guide plate 21. In another embodiment (as shown in fig. 3), the light emitting module 20A includes a plurality of first point light sources 200A, the light emitting module 20 may also include a light guide plate 21A, a plurality of second point light sources 22A and a light shielding unit 23A, the light guide plate 21A is disposed below the touch input layer 10, a plurality of grooves are formed at a first side of the light guide plate 21A, a reflective layer is coated on a wall surface of each groove, the first point light sources 200A are respectively disposed in the grooves of the light guide plate 21A, the light emitting direction of the first point light source 200A faces the touch input layer 10, the second point light sources 22A are disposed at the second side of the light guide plate 21A, and the light emitting direction of each point light source 22A faces the light guide plate 21, the light shielding unit 23A is disposed at one side of the first point light source 200A, and the reflective layer and the light shielding unit 23A prevent the light of the first point light source 200A from being transmitted to the light guide plate 21A to cause interference in visual display. In yet another embodiment (not shown), the light emitting module 20 can be a plurality of point light sources 22A distributed under the touch input layer 10 in an array, and the light emitting direction thereof faces the touch input layer 10.

The control unit 50, the light emitting module 20, the touch sensing unit 30 and the force sensor 40 can be selectively disposed on a printed circuit board to be electrically connected to each other, wherein the control unit 50 receives the touch information obtained by the touch sensing unit 30 and the force information obtained by the force sensor 40, and controls the light emitting module 20.

Referring to fig. 4, a light emitting control method of a touch device according to the present invention includes the following steps:

obtaining touch information corresponding to at least one touch object on the touch input layer 10, and obtaining force information of the force sensor 40 corresponding to the touch object (S10): when a touch object (e.g., a finger or a stylus) operates on the surface of the touch input layer 10, the touch sensing unit 30 obtains touch information (e.g., the number of objects, position information, etc.) of the touch object, and the force sensor 40 obtains force information corresponding to the force applied by the touch object to the touch input layer 10. In one embodiment, the touch sensing unit 30 obtains the touch information of the touch object according to the capacitance change, and the control unit 50 further calculates the force information obtained by each of the force sensors 40 to obtain the force applied by the touch object.

Changing a light emitting mode of the light emitting module according to at least one of the touch information and the force information (S20): when a user operates the touch input layer 10 with the touch object, the control unit 50 uses at least one item of information of the touch information and the force information of the touch object as a basis for changing the light emitting mode of the light emitting module 20. In an embodiment, the control unit 50 can adjust the light emitting modes of the light emitting module 20, such as the brightness, the flicker or the flicker frequency, according to the calculated magnitude of the force applied by the touch object. In an embodiment, the control unit 50 can adjust the brightness, the flicker frequency, or the light emitting mode of the light emitting module 20 according to the obtained touch information. In an embodiment, the control unit 50 first determines the touch event triggered by the touch object according to at least one of the touch information and the force information, and then adjusts the brightness, the flicker frequency, or the light emitting mode of the light emitting module 20, such as whether to emit light or not, according to the touch event and at least one of the force information and the touch event. Therefore, the user can intuitively know whether the currently triggered touch event is established or what the input touch state is by changing and adjusting the light emitting mode of the light emitting module 20.

The following describes different light emission modes by specific embodiments, and the following description is made with reference to the structures of fig. 1 and 2:

referring to fig. 5, in a normal state, when there is no touch object, the light emitting mode of the light emitting module 20 may be a predetermined state, such as no light emitting or a low light emitting brightness (e.g. 30% of the maximum brightness).

Referring to fig. 6, when the user touches the touch input layer 10 with the index finger 61, the control unit 50 determines that the index finger 61 is a touch event such as a single-finger touch or press on the touch input layer 10 according to the touch information that the type of the object is a finger, the number of the objects is 1, and the displacement of the index finger 61 is not greater than a predetermined value, and the control unit 50 changes the luminance of the light emitting module 20 according to the touch event, for example, from 30% of a predetermined state of non-light emission or maximum luminance to 60% of a higher luminance (maximum luminance), so that the user can intuitively know the touch event that the single-finger touch or press is triggered through the luminance change presented by the touch input layer 10. Further, when the pressing force of the index finger 61 is changed, a further command may be triggered (e.g., a touch event triggering a double click, etc.), and if the pressing force of the index finger 61 is larger, the luminance is made higher, so that the change of the pressing force is reflected by the change of the luminance.

Referring to fig. 7, when the user touches the touch input layer 10 with the index finger 61, the control unit 50 determines that the index finger 61 is performing a touch event such as a single-finger touch or press on the touch input layer 10 according to the touch information that the type of the object is a finger, the number of the objects is 1, and the displacement of the index finger 61 is not greater than a predetermined value, in addition to changing the light emitting brightness of the light emitting module 20, a light spot 101 is formed on the area of the touch input layer 10 corresponding to the index finger 61, so that the user knows the touch event that the single-finger touch or press has been triggered, and knows the current touch position. Further, when the force applied by the pressing down of the index finger 61 is changed, a further command may be triggered (e.g. a double-click event is triggered) and if the force applied by the pressing down of the index finger 61 is larger, the brightness of the light spot 101 is higher, or the light emitting range of the light spot 101 is larger, so that the change of the force is reflected by the change of the brightness and the range.

Referring to fig. 8 and 9, when a user touches the touch input layer 10 with an index finger 61 and a middle finger 62, the control unit 50 determines that the index finger 61 and the middle finger 62 are touch events of double-finger scrolling (scrolling) on the touch input layer 10 according to the touch information that the type of the object is a finger, the number of the objects is 2, the displacement directions of the index finger 61 and the middle finger 62 are the same, and the displacement amount is greater than a preset value, and the control unit 50 changes the light emitting mode of the light emitting module 20 into blinking light, i.e. a light (as shown in fig. 8) and a dark (as shown in fig. 9) light emitting mode according to the touch event that the double-finger scrolling is triggered, so that the user can clearly know that the touch event of the double-finger scrolling is triggered, and further, when the pressing force of the index finger 61 and the middle finger 62 changes, further commands (such as a changing speed, etc.) may be triggered, the frequency of the flicker light at this time may be changed by the force applied by the pressing down. In one embodiment, the larger the pressing force applied by the index finger 61 and the middle finger 62, the higher the frequency of blinking light, and the variation of the light emitting frequency is used to reflect the variation of the pressing force.

Referring to fig. 10 and 11, when a user touches the touch input layer 10 with a forefinger 61 and a thumb 63, the control unit 50 determines that the forefinger 61 and the thumb 63 are touch events that are Zoom-out (as shown in fig. 10) or Zoom-in (as shown in fig. 11) on the touch input layer 10 according to touch information that the type of the object being touched is a finger, the number of the object is 2, the displacement directions of the forefinger 61 and the thumb 63 are opposite, and the displacement amount is greater than a predetermined value, and the control unit 50 displays a light bar 104, 105 at a position near a side of the touch input layer 10 to represent a Zoom-in or Zoom-in touch event according to the touch event being Zoom-out or Zoom-in. Further, as the distance between the index finger 61 and the thumb 63 gradually decreases for a zoom-out event (as shown in FIG. 10), the length of the light bar 104 decreases accordingly; when the distance between the index finger 61 and the thumb 63 is gradually increased in a zoom-in event (as shown in fig. 11), the length of the light bar 105 is increased, thereby showing the degree of change of the zoom-in or zoom-out.

Referring to fig. 12 and 13, when the user touches or presses the touch input layer 10 with the index finger 61 with a single finger, and determines that the pressed position of the index finger 61 corresponds to a specific trigger command (e.g. other multimedia control functions such as adjusting device volume or fast turn/playback) according to the position information, the control unit 50 displays a light bar 106, 107 on the side according to the touch event and the specific trigger command, further, when the pressing force of the index finger 61 changes, the triggered command may be influenced to a certain extent, for example, the volume is adjusted or fast turn/playback, if the pressing force of the index finger 61 is larger, the longer the length of the light bar 106 is, the faster the adjusting speed or fast turn/playback speed is, and if the pressing force of the index finger 61 is smaller, the shorter the length of the other light bar 107 is, the slower the adjustment speed or spinning/playback speed of the volume is indicated.

Referring to fig. 14 and 15, when the user carelessly places the palm 64 on the touch input layer 10 and is idle, the control unit 50 changes the light emitting mode of the light emitting module 20 to be blinking light, i.e. a dark (as shown in fig. 14) or bright (as shown in fig. 15) light emitting mode, according to that the touch event is an idle object, so as to remind the user that an idle object is placed on the touch input layer 10.

In summary, the control unit 50 changes the light emitting mode of the light emitting module 20 according to the touch information or the force information, so as to intuitively feed back the touch information or the force information input by the user to the user on the touch device in real time, so that the user can know whether the user wants to input the electronic device without waiting for the specific instruction triggered or the specific function started on the electronic device, and the user can directly determine whether the user wants to input the electronic device by changing the light emitting mode, thereby improving the convenience of use and reducing the probability of misoperation.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (23)

1. A light-emitting control method of a touch device, the touch device having a touch input layer, a sensing layer and a light-emitting module, the control method comprising the steps of:

acquiring touch information and force information of at least one touch object correspondingly positioned on the touch input layer through the induction layer;

changing a light emitting mode of the light emitting module according to at least one of the touch information and the force information.

2. The method of claim 1, wherein when the light emitting mode of the light emitting module is changed according to the force information, the brightness of the light emitting module is adjusted according to the force applied by the touch object calculated by the received force information.

3. The method as claimed in claim 1, wherein when the light emitting mode of the light emitting module is changed according to the force information, the flicker frequency of the light emitting module is adjusted according to the force magnitude of the touch object calculated by the received force information.

4. The method of claim 1, wherein when the light emitting mode of the light emitting module is changed according to at least one of the touch information and the force information, an area to be illuminated by the light emitting module is determined according to the position information of the touch object in the received touch information, and the brightness of the light emitting module is adjusted according to the force applied by the touch object calculated according to the received force information.

5. The method of claim 1, wherein before changing the light emitting mode of the light emitting module, a touch event triggered by the touch object is determined according to at least one of touch information and force information of the touch object, and then the light emitting mode of the light emitting module is changed according to at least one of the force information and the touch event.

6. The light-emitting control method of the touch device as claimed in claim 5, wherein when the touch event is determined to be a single-finger touch or press, the light-emitting brightness of the light-emitting module is changed.

7. The light-emitting control method of the touch device as claimed in claim 6, further comprising adjusting the light-emitting brightness of the light-emitting module according to the force-applying magnitude of the touch object calculated by the received force information, wherein the light-emitting brightness is larger if the force is larger, and the light-emitting brightness is smaller if the force is smaller.

8. The method as claimed in claim 5, wherein when the touch event is determined to be a double-finger scroll, the light emitting module is changed to flash.

9. The method of claim 8, further comprising adjusting a frequency of blinking according to a magnitude of the force applied by the touch object calculated from the received force information, wherein the frequency of blinking is higher if the force applied is larger, and the frequency of blinking is lower if the force applied is smaller.

10. The light-emitting control method of a touch device as claimed in claim 5, wherein the touch objects include two touch objects, and when the touch event is determined to be an enlargement or a reduction, the light-emitting module is caused to display a light bar in a partial area corresponding to the touch input layer.

11. The method as claimed in claim 10, further comprising adjusting the length of the light bar according to the position information of the touch objects in the received touch information, wherein the length of the light bar increases as the distance between the two touch objects increases for a zoom-in event, and the length of the light bar decreases as the distance between the two touch objects decreases for a zoom-out event. The length of the light bar is reduced.

12. The method as claimed in claim 5, wherein when the touch event is determined to be a single-finger touch or a press, and the position pressed by the touch object is determined to be a specific position according to the position information in the touch information of the touch object, the light emitting module is configured to display a light bar corresponding to a partial area of the touch input layer.

13. The method as claimed in claim 12, further comprising adjusting the length of the light bar according to the magnitude of the force applied by the touch object calculated from the received force information, wherein the length of the light bar is longer if the force is larger, and the length of the light bar is shorter if the force is smaller.

14. The light-emitting control method of a touch device as claimed in claim 5, wherein when the touch event triggered by the touch object is determined according to the touch information of the touch object, and when the touch object is determined to be an idle object, the light-emitting module is enabled to enhance the light-emitting brightness or change the light-emitting mode to flash light.

15. A touch device with a light emitting function, comprising:

a touch input layer;

a light-emitting module disposed under the touch input layer, the light-emitting module including at least one light source;

the sensing layer is arranged below the touch input layer;

a control unit electrically connected to the light emitting module and the sensing layer, and executing the following steps:

acquiring touch information and force information of at least one touch object correspondingly positioned on the touch input layer through the induction layer;

changing a light emitting mode of the light emitting module according to at least one of the touch information and the force information.

16. The touch device with light-emitting function of claim 15, wherein the light-emitting module comprises a light guide plate and a plurality of point light sources, the light guide plate is disposed parallel to the touch input layer, and the point light sources are disposed at a side of the light guide plate and emit light toward the light guide plate.

17. The touch device with a light emitting function of claim 15, wherein the light emitting module comprises a plurality of point light sources, and the point light sources are distributed under the touch input layer and emit light in a direction facing the touch input layer.

18. The touch device with light-emitting function of claim 15, wherein the light-emitting module comprises a plurality of first point light sources, a light guide plate and a plurality of second point light sources, the light guide plate is disposed parallel to the touch input layer, a plurality of grooves are formed on one side of the light guide plate, the first point light sources are respectively disposed in the grooves of the light guide plate, and the light-emitting direction of the first point light sources faces the touch input layer, and the second point light sources are disposed on the other side of the light guide plate, and the light-emitting direction of the second point light sources faces the light guide plate.

19. The touch device with a light-emitting function of claim 18, wherein a wall surface of each groove of the light guide plate is coated with a reflective layer.

20. The touch device with light emitting function according to claim 18 or 19, comprising a light shielding unit disposed at one side of the first point light source.

21. The touch device with a light-emitting function of claim 15, wherein the sensing layer comprises a touch sensing unit and a plurality of force sensors.

22. The touch device with a light emitting function of claim 21, wherein the light emitting module is disposed between the touch sensing unit and the touch input layer.

23. The touch device with a light-emitting function of claim 21, wherein the touch sensing unit is disposed between the light-emitting module and the touch input layer.

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