CN207115334U - A kind of touch-control display module - Google Patents

Abstract

The utility model discloses a kind of touch-control display module, including touch display module, processing module and vibration sounding module, the processing module to be electrically connected the touch display module and vibration sounding module；Wherein, the touch display module is used for touch function and display function；The processing module is used for after the touching instruction of the touch display module is received, and sends corresponding idsplay order to the touch display module, and send control instruction to the vibration sounding module simultaneously；The vibration sounding module is used to produce vibration after the control instruction of the processing module is received and sends sound.The touch-control display module can be fed back when using touch function using the form of vibration and sounding, user is known whether touch action is effective.

Description

Touch display module

Technical Field

The utility model relates to a touch feedback field especially relates to a touch display module assembly.

Background

With the intelligent development of electronic products, more and more electronic products tend to be intelligent and humanized, the touch screen technology is also more and more applied to the life of people, the existing touch screen enters different operation modes and interfaces through the touch input of a user, but in the process of using the touch screen by the user, a feedback mechanism from the touch screen is lacked, and the user experience is poor.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model provides a touch display module can utilize the form of vibration and sound production to feed back when using the touch function, and whether the user knows the touch action is effective.

The utility model discloses the technical problem that will solve realizes through following technical scheme:

a touch display module comprises a touch display module, a processing module and a vibration sound production module, wherein the processing module is electrically connected with the touch display module and the vibration sound production module respectively; wherein,

the touch display module is used for a touch function and a display function;

the processing module is used for sending a corresponding display instruction to the touch display module and simultaneously sending a control instruction to the vibration sounding module after receiving a touch instruction of the touch display module;

the vibration sounding module is used for generating vibration and sounding after receiving the control instruction of the processing module.

Further, vibration sound production module includes first stator, second stator and active cell, first stator and second stator set up respectively on the relative both sides of active cell and with the active cell separates each other, works as processing module to when vibration sound production module sends control command, the active cell striking is in on first stator and/or the second stator, make first stator and/or second stator produce the vibration and send sound.

Further, the vibration sound production module further comprises a shell, the first stator and the second stator are arranged on the inner surface of the shell, and the rotor is hung in the shell.

Furthermore, the rotor comprises an impact piece and an elastic sheet, the suspension end of the elastic sheet is connected with the impact piece, and the connection end of the elastic sheet is connected with the shell, so that the impact piece is suspended in the shell.

Furthermore, the elastic sheet is of an arm type structure or a ring type structure.

Further, the striking piece is made of a magnetic conductive material, and the first stator and the second stator are electromagnets.

Further, the impact piece is an electromagnet, and the first stator and/or the second stator are/is a permanent magnet; or, the impact piece is a permanent magnet, and the first stator and/or the second stator are electromagnets.

Further, the first stator, the second stator and the impact piece are electromagnets.

Further, the vibration sound generation module is arranged on the back of the touch display module.

Further, the first stator is arranged on the inner surface of one side of the shell close to the touch display module, and the second stator is arranged on the inner surface of one side of the shell far away from the touch display module.

The utility model discloses following beneficial effect has: be provided with in this touch display module vibration sound production module, as the feedback mechanism of touch display module when using touch function, it is right as the user touch display module's touch moves when as effective instruction, touch module just can receive the touch instruction that touch display module sent, then to when touch display module sent corresponding display instruction, to vibration sound production module also sends control command, makes vibration sound production module produces vibration and sends sound, can help the user to know whether touch action is effective.

Drawings

Fig. 1 is a block diagram of a touch display module according to the present invention;

fig. 2 is a schematic structural diagram of a touch display module according to the present invention;

fig. 3 is a schematic structural diagram of another touch display module provided by the present invention;

fig. 4 is a schematic diagram of a mover of the touch display module according to the present invention;

fig. 5 is a schematic view of another mover of the touch display module according to the present invention;

fig. 6 is a schematic view of another mover of the touch display module according to the present invention;

fig. 7 is a schematic view of another mover of the touch display module according to the present invention.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

As shown in fig. 1-3, a touch display module includes a touch display module 1, a processing module and a vibration sound generation module 2, wherein the processing module is electrically connected to the touch display module 1 and the vibration sound generation module 2, respectively; wherein,

the touch display module 1 is used for a touch function and a display function;

the processing module is used for sending a corresponding display instruction to the touch display module 1 and simultaneously sending a control instruction to the vibration sounding module 2 after receiving a touch instruction of the touch display module 1;

and the vibration sounding module 2 is used for generating vibration and sounding after receiving the control instruction of the processing module.

Be provided with in this touch display module assembly vibration sound production module 2, as touch display module 1 is the feedback mechanism when using touch function, it is right as the user touch display module 1's touch moves when as effective instruction, touch module just can receive touch display module 1 sends the touch instruction, then to touch display module 1 sends corresponding display instruction in, to vibration sound production module 2 also sends control command, makes vibration sound production module 2 produces the vibration and makes sound, can help the user to know whether effective touch moves.

Vibration sound production module 2 includes first stator 22, second stator 24 and a active cell 23, first stator 22 and second stator 24 set up respectively on the relative both sides of active cell 23 and with active cell 23 separates each other, works as processing module to when vibration sound production module 2 sends control command, active cell 23 striking is in on first stator 22 and/or the second stator 24, make first stator 22 and/or second stator 24 produce the vibration and send sound. The impacts between the first stator 22 and the mover 23 and between the second stator 24 and the mover 23 are preferably, but not limited to, generated by the interaction of magnetic field forces.

In a specific implementation, one touch action of the touch display module 1 may correspond to two consecutive vibrations and vocalizations, that is, the mover 23 sequentially and respectively collides with the first stator 22 and the second stator 24 under one touch action to generate two consecutive vibrations and vocalizations; one touch action of the touch display module 1 may also correspond to one vibration and sound production, and two touch actions before and after correspond to different vibrations and sound production, that is, the mover 23 collides with the first stator 22 to produce a first vibration and a first sound production in the previous touch action, and collides with the second stator 24 to produce a second vibration and a second sound production in the next touch action; of course, different touch actions may be used to trigger different vibrations and sounds, such as long press and short press corresponding to different vibrations and sounds, heavy press and light press corresponding to different vibrations and sounds, etc., without limitation.

The vibration sounding module 2 further comprises a housing 21, the first stator 22 and the second stator 24 are both arranged on the inner surface of the housing 21, and the rotor 23 is suspended in the housing 21; the mover 23 includes a striking member 231 and a spring 232, a suspension end of the spring 232 is connected to the striking member 231, and a connection end of the spring 232 is connected to the housing 21, so that the striking member 231 is suspended in the housing 21.

As shown in fig. 4 or 5, the elastic sheet 232 is an arm-type structure or a ring-type structure, wherein the arm-type structure is a long strip-shaped sheet, one end of the arm-type structure is a suspension end and connected to the striking member 231, and the other end of the arm-type structure is a connection end and connected to the housing 21; the ring-type structure comprises an inner ring 2322 and an outer ring 2321, the inner ring 2322 and the outer ring 2321 are connected through a plurality of elastic threads 2323, the inner ring 2322 is a suspension end and is connected with the impact member 231, and the outer ring 2321 is a connection end and is connected with the housing 21.

In one example, the striking member 231 is made of a magnetic conductive material, and the first stator 22 and the second stator 24 are electromagnets; as shown in fig. 2, the first stator 22 and the second stator 24 are each connected with a positive terminal 25 and a negative terminal 26, respectively.

When the first stator 22 is energized and the second stator 24 is de-energized, the striking member 231 moves toward the first stator 22 under the action of the first magnetic field generated by the first stator 22 and strikes on the first stator 22, so that the first stator 22 generates a first vibration and emits a first sound; when the first stator 22 is de-energized and the second stator 24 is energized, the striking member 231 strikes against the second stator 24 for the same reason, causing the second stator 24 to generate a second vibration and emit a second sound.

In another example, as shown in fig. 3, the striking element 231 is an electromagnet, the first stator 22 and/or the second stator 24 is a permanent magnet, and the striking element 231 uses the elastic piece 232 as a connection terminal, as shown in fig. 6 and 7, the elastic piece 232 uses a two-stage structure electrically insulated from each other as the positive terminal 25 and the negative terminal 26, and each stage of the two-stage structure is connected to the striking element 231 and the housing 21, respectively.

When the striking member 231 is energized, the polarities of the adjacent surfaces of the striking member 231 and the first stator 22 are opposite, and/or the polarities of the adjacent surfaces of the striking member 231 and the second stator 24 are the same, and the striking member 231 moves towards the first stator 22 and strikes on the first stator 22 under the action of the suction force of the first stator 22 and/or the repulsion force of the second stator 24, so that the first stator 22 generates a first vibration and emits a first sound; when the striking member 231 is energized with an opposite current, for the same reason, the striking member 231 strikes the second stator 24 under the action of the repulsive force of the first stator 22 and/or the attractive force of the second stator 24, so that the second stator 24 generates a second vibration and emits a second sound.

In yet another example, the striker 231 is a permanent magnet and the first stator 22 and/or the second stator 24 are electromagnets.

When the first stator 22 is energized, the adjacent surfaces of the first stator 22 and the striking piece 231 have opposite polarities, and/or when the second stator 24 is energized, the adjacent surfaces of the second stator 24 and the striking piece 231 have the same polarity, and the striking piece 231 moves towards the first stator 22 and strikes on the first stator 22 under the action of the suction force of the first stator 22 and/or the repulsion force of the second stator 24, so that the first stator 22 generates a first vibration and emits a first sound; when opposite currents are applied to the first stator 22 and/or the second stator 24, for the same reason, the striking member 231 strikes the second stator 24 under the action of the repulsive force of the first stator 22 and/or the attractive force of the second stator 24, so that the second stator 24 generates a second vibration and emits a second sound.

In yet another example, the first stator 22, the second stator 24, and the striker 231 are electromagnets.

When the first stator 22, the second stator 24 and the striking member 231 are all energized, the polarities of the adjacent surfaces of the striking member 231 and the first stator 22 are opposite, the polarities of the adjacent surfaces of the striking member 231 and the second stator 24 are the same, and the striking member 231 moves towards the first stator 22 and strikes on the first stator 22 under the action of the suction force of the first stator 22 and the repulsion force of the second stator 24, so that the first stator 22 generates a first vibration and emits a first sound; when opposite currents are applied to the first stator 22 and the second stator 24, or opposite currents are applied to the striking member 231, for the same reason, the striking member 231 strikes the second stator 24 under the action of the repulsive force of the first stator 22 and the attractive force of the second stator 24, so that the second stator 24 generates a second vibration and emits a second sound.

The vibration sound production module 2 is arranged on the back surface of the touch display module 1, and the shell 21 is preferably but not limited to be fixed on the back surface of the touch display module 1 in a sticking, clamping, riveting and other modes; the first stator 22 is disposed on the inner surface of the case 21 on the side close to the touch display module 1, and the second stator 24 is disposed on the inner surface of the case 21 on the side far from the touch display module 1.

The touch display module 1 comprises a touch screen and a display screen, wherein the display screen comprises but is not limited to an LCD or an OLED; the touch screen is of an externally-hung structure and is externally arranged on the front side of the display screen, such as GG, GFF or GF; or the touch screen is of a built-IN structure and is built IN the display screen, such as IN-CELL or ON-CELL.

The above-mentioned embodiments only express the embodiments of the present invention, and the description thereof is specific and detailed, but the invention can not be understood as the limitation of the patent scope of the present invention, but all the technical solutions obtained by adopting the equivalent substitution or equivalent transformation should fall within the protection scope of the present invention.

Claims (9)

1. The utility model provides a touch display module assembly which characterized in that: the touch screen comprises a touch display module, a processing module and a vibration sound production module, wherein the processing module is respectively and electrically connected with the touch display module and the vibration sound production module; wherein,

the touch display module is used for a touch function and a display function;

the processing module is used for sending a corresponding display instruction to the touch display module and simultaneously sending a control instruction to the vibration sounding module after receiving a touch instruction of the touch display module;

the vibration sounding module is used for generating vibration and sounding after receiving the control instruction of the processing module; wherein

Vibration sound production module includes first stator, second stator and a active cell, first stator and second stator set up respectively on the relative both sides of active cell and with the active cell separates each other, works as processing module to when vibration sound production module sends control command, the active cell striking is in on first stator and/or the second stator, make first stator and/or second stator produce the vibration and send sound.

2. The touch display module of claim 1, wherein: the vibration sounding module further comprises a shell, the first stator and the second stator are arranged on the inner surface of the shell, and the rotor is hung in the shell.

3. The touch display module of claim 2, wherein: the rotor comprises an impact piece and an elastic piece, the suspension end of the elastic piece is connected with the impact piece, and the connection end of the elastic piece is connected with the shell, so that the impact piece is suspended in the shell.

4. The touch display module of claim 3, wherein: the elastic sheet is of an arm type structure or a ring type structure.

5. The touch display module of claim 3, wherein: the striking piece is made of a magnetic conductive material, and the first stator and the second stator are electromagnets.

6. The touch display module of claim 3, wherein: the impact piece is an electromagnet, and the first stator and/or the second stator are/is a permanent magnet; or, the impact piece is a permanent magnet, and the first stator and/or the second stator are electromagnets.

7. The touch display module of claim 3, wherein: the first stator, the second stator and the impact piece are electromagnets.

8. The touch display module of any of claims 1-7, wherein: the vibration sounding module is arranged on the back of the touch display module.

9. The touch display module of claim 8, wherein: the first stator is arranged on the inner surface of one side of the touch display module, which is close to the shell of the vibration sound production module, and the second stator is arranged on the inner surface of one side of the touch display module, which is far away from the shell of the vibration sound production module.