CN206588004U - One kind vibration module and vibration module - Google Patents
One kind vibration module and vibration module Download PDFInfo
- Publication number
- CN206588004U CN206588004U CN201720009202.1U CN201720009202U CN206588004U CN 206588004 U CN206588004 U CN 206588004U CN 201720009202 U CN201720009202 U CN 201720009202U CN 206588004 U CN206588004 U CN 206588004U
- Authority
- CN
- China
- Prior art keywords
- vibration
- vibration module
- module
- monomer
- vibrated
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Apparatuses For Generation Of Mechanical Vibrations (AREA)
Abstract
The utility model discloses one kind vibration module and vibration module.The module includes:The first vibration module vibrated in the first direction, the second vibration module vibrated in a second direction, first vibration module and second vibration module are fixed together, and first vibration module and second vibration module have identical or different resonant frequency.The vibration module has two vibration modules vibrated along different directions, and individually vibration can realize vibration of the vibration module on the first direction of vibration and the second direction of vibration to two vibration modules;Two vibration modules vibrate simultaneously, can realize the vibrating effect of two vibration module superpositions.The vibration module can provide a variety of vibration sense experience.
Description
Technical field
The utility model is related to vibrating device technical field, can provide what different vibration senses were experienced more particularly, to a kind of
Vibrate module and vibration module.
Background technology
At present, linear motor is only limitted to the single resonant frequency vibration sense experience of one direction in the application of electronic device field.Electricity
Sub- equipment is generally required to provide different vibrating effects according to actual process, made with improving in running game or video
The experience sense of user.Existing vibrating motor can not meet above-mentioned requirements because direction of vibration is single, resonant frequency is single.
Accordingly, it is desirable to provide a kind of new technical scheme is to solve above-mentioned technical problem.
Utility model content
A purpose of the present utility model is to provide a kind of new solution for vibrating module.
Module is vibrated there is provided one kind according to first aspect of the present utility model.The module includes:Vibrate in the first direction
The first vibration module, the second vibration module for vibrating in a second direction, first vibration module and the second vibration mould
Block is fixed together, and first vibration module and second vibration module have identical or different resonance frequency
Rate.
Alternatively, first vibration module and second vibration module are cuboid, first vibration module
Side by side or it is set up in parallel with second vibration module.
Alternatively, in addition to:The 3rd vibration module vibrated along third direction, the 3rd vibration module and described first
Vibration module and second vibration module are fixed together, first vibration module, second vibration module and
3rd vibration module has identical or different resonant frequency.
Alternatively, in first vibration module, second vibration module and the 3rd vibration module at least
Two are vibrated simultaneously.
Alternatively, first vibration module, second vibration module and the 3rd vibration module are arranged side by side.
Alternatively, first vibration module, second vibration module and the 3rd vibration module are cuboid;
First vibration module and the 3rd vibration module are arranged side by side, and the long side of second vibration module and described the
The long side of one vibration module and the 3rd vibration module links together, and second vibration module is located at the described first vibration
The lower section of module and the 3rd vibration module.
Alternatively, first vibration module, second vibration module and the 3rd vibration module are cuboid;
3rd vibration module and second vibration module are arranged side by side, and the long side of first vibration module shakes with the described 3rd
The short side of dynamic model block and second vibration module links together, and first vibration module is located at the 3rd vibration module
With the sidepiece of second vibration module.
Alternatively, first vibration module, second vibration module and the 3rd vibration module are cuboid;
First vibration module and second vibration module are set up in parallel, and the long side of the 3rd vibration module shakes with described first
The long side of dynamic model block and second vibration module links together, and the 3rd vibration module is located at first vibration module
With the sidepiece of second vibration module.
Alternatively, in addition to FPC, first vibration module, second vibration module and the described 3rd shake
Dynamic model block is electrically connected with the FPC respectively.
According to other side of the present utility model, there is provided a kind of vibration module.The vibration module includes:Housing, dividing plate,
The the first vibration monomer vibrated in the first direction and the second vibration monomer vibrated in a second direction, the housing have chamber
Body, the dividing plate is arranged in the cavity, it is described first vibration monomer and it is described second vibration monomer by the dividing plate every
Open, the first vibration monomer and the second vibration monomer have identical or different resonant frequency.
Alternatively, in addition to along third direction the 3rd vibration monomer vibrated, the first vibration monomer, described second shake
Dynamic monomer and the 3rd vibration monomer are separated by the dividing plate, the first vibration monomer, the second vibration monomer and institute
Stating the 3rd vibration monomer has identical or different resonant frequency.
Inventor of the present utility model has found that in the prior art, vibrating motor is because direction of vibration is single, resonant frequency
It is single, it is impossible to which that a variety of vibration sense experience are provided.Therefore, the utility model to be realized technical assignment or technology to be solved
Problem be it is that those skilled in the art never expect or it is not expected that, therefore the utility model is a kind of new technical side
Case.
The vibration module has two vibration modules vibrated along different directions, and individually vibration can be real for two vibration modules
Now vibration of the vibration module on the first direction of vibration and the second direction of vibration;Two vibration modules vibrate simultaneously, can realize
The vibrating effect of two vibration module superpositions.
The vibration module can provide a variety of vibration sense experience.
In addition, passing through the vibrating effect for setting the vibration module of different resonant frequencies to be superimposed two vibration modules
More enrich.
The vibration module has the two vibration monomers vibrated along different directions, and individually vibration can be real for two vibration monomers
Existing vibration of the vibration module on the first direction of vibration and the second direction of vibration;Two vibration monomers vibrate simultaneously, can realize
The vibrating effect of two vibration monomer superpositions.
The vibration module can provide a variety of vibration sense experience.
In addition, passing through the vibrating effect for setting the vibration monomer of different resonant frequencies to be superimposed two vibration monomers
More enrich.
It is of the present utility model other by referring to the drawings to the detailed description of exemplary embodiment of the present utility model
Feature and its advantage will be made apparent from.
Brief description of the drawings
The accompanying drawing for being combined in the description and constituting a part for specification shows embodiment of the present utility model, and
And be used to explain principle of the present utility model together with its explanation.
Fig. 1-2 is the schematic diagram of the vibration module with two vibration modules of the utility model embodiment.
Fig. 3-6 is the schematic diagram of the vibration module with three vibration modules of the utility model embodiment.
Fig. 7-9 is the structural representation of the vibration module of the utility model embodiment.
In figure, 11:First vibration module;12:Second vibration module;13:3rd vibration module;14:Long side;15:Short side;
21:Housing;22:Dividing plate;23:First oscillator;24:First shell fragment;25:Second oscillator;26:Second shell fragment;27:3rd oscillator;
28:3rd shell fragment.
Embodiment
Various exemplary embodiments of the present utility model are described in detail now with reference to accompanying drawing.It should be noted that:Unless another
Illustrate outside, the part and the positioned opposite of step, numerical expression and numerical value otherwise illustrated in these embodiments is not limited
Make scope of the present utility model.
The description only actually at least one exemplary embodiment is illustrative below, never as to this practicality
New and its application or any limitation used.
It may be not discussed in detail for technology, method and apparatus known to person of ordinary skill in the relevant, but suitable
In the case of, the technology, method and apparatus should be considered as a part for specification.
In shown here and discussion all examples, any occurrence should be construed as merely exemplary, without
It is as limitation.Therefore, other examples of exemplary embodiment can have different values.
It should be noted that:Similar label and letter represents similar terms in following accompanying drawing, therefore, once a certain Xiang Yi
It is defined, then it need not be further discussed in subsequent accompanying drawing in individual accompanying drawing.
In order at least solve one of above-mentioned technical problem, the utility model provides a kind of vibration module.The vibration module can
For but be not limited in the electronic equipments such as Intelligent worn device, smart mobile phone, tablet personal computer and game paddle.The module
Including:The first vibration module 11 vibrated in the first direction, the second vibration module 12 vibrated in a second direction, the first vibration mould
The vibration module 12 of block 11 and second is fixed together, the first vibration module 11 and the second vibration module 12 have it is identical or
Different resonant frequencies.
The vibration module has two vibration modules vibrated along different directions, and individually vibration can be real for two vibration modules
Now vibration of the vibration module on the first direction of vibration and the second direction of vibration;Two vibration modules vibrate simultaneously, can realize
The vibrating effect of two vibration module superpositions.
Additionally due to two vibration modules have identical or different resonant frequency, therefore vibrating effect can be made more
Sample, improves vibration sense experience.
The vibration module can provide a variety of vibration sense experience.
Further, the vibration by setting the vibration module of different resonant frequencies to be superimposed two vibration modules
Effect is more enriched.
Those skilled in the art can control the vibration of two vibration modules by setting control device.For example, passing through
Set algorithm is inputted to be driven respectively to two vibration modules, is imitated in order to provide corresponding vibration according to different scenes
Really.
Fig. 1-2 shows a kind of vibration module of the utility model embodiment.In this embodiment, as shown in figure 1, first
The vibration module 12 of vibration module 11 and second is cuboid, and the first vibration module 11 is arranged side by side with the second vibration module 12.
First vibration module 11 and the second vibration module 12 can use linear vibration motor commonly used in this field.Linear vibration motor
Structure be not described in detail herein for the common knowledge of this area.In one example, the first vibration module 11 shakes with second
Dynamic model block 12 is fixed together by modes such as laser welding, bonding, riveting, clamping, bolt connections.Here, setting side by side
Put and refer to that two vibration modules be arranged in parallel and are fixed together in the horizontal plane, for example, two vibration modules are parallel to X
Axle sets or set parallel to Y-axis.The direction of vibration of first vibration module 11 and the second vibration module 12 can be according to reality
Need to be configured.For example, the direction of vibration of the first vibration module 11 and the second vibration module 12 can be respectively along X-axis and Y
Axle, along X-axis and Z axis, along Y-axis and Z axis.
In another example, as shown in Fig. 2 the first vibration module 11 and the second vibration module 12 are cuboid, the
One vibration module 11 is set up in parallel with the second vibration module 12.Refer to two vibration modules in vertical plane here, being set up in parallel
It is arranged in parallel and is fixed together, for example, two vibration modules is set parallel to Z axis.
First vibration module 11 and the second vibration module 12 are cuboid, and being fixedly connected for the two can be made simpler
It is single, laser welding, and this simple structure are convenient for, is easy to vibration module being installed in electronic equipment.
It is more preferable that two vibration modules, which link together, constitutes the vibration module of rectangular shape.This structure
Be more convenient for vibrate module storage and installation.
Fig. 3-6 shows another vibration module of the utility model embodiment.In this embodiment, except the first vibration
Outside the vibration module 12 of module 11 and second, vibration module also includes:The 3rd vibration module 13 vibrated along third direction, the 3rd
Vibration module 13 is fixed together with the first vibration module 11 and the second vibration module 12, the first vibration module 11, described
Second vibration module 12 and the 3rd vibration module 13 have identical or different resonant frequency.For example, passing through Laser Welding
Connect, be bonded, riveting, clamping, the mode such as bolt connection are fixed together.Preferably, the module also includes flexible circuitry
Plate (FPCB), three vibration modules are electrically connected with FPC respectively.The biography of vibration signal is realized by FPC
Defeated, this mode can make the transmission of vibration signal more accurate, and improve the integration degree of module, be easy to vibrate mould
The Miniaturization Design of group.In addition, the suitability of FPCB and control device is more preferable.
It is of course also possible to use three vibration modules are electrically connected with by lead with control device respectively.
When three vibration modules individually vibrate, vibration module can realize the vibrating effect in three directions;Shaken when three
When any two in dynamic model block is vibrated, vibration module can realize three kinds of superpositing vibration effects by vibrating superposition;When three
Vibration module vibrates simultaneously when, vibration module can realize the superpositing vibration effect of three vibration modules.So as to there is provided more
Vibration sense experience, to adapt to the application scenarios that electronic equipment is different.
The direction of vibration of three vibration modules can be configured according to actual needs.Preferably, first direction is X-axis
Direction, second direction is Y direction, and third direction is Z-direction.This set-up mode, the vibration of three modules is orthogonal, from
And make vibration sense more obvious.
Optionally, at least two in the first vibration module 11, the second vibration module 12 and the 3rd vibration module 13
Vibrate simultaneously.This mode can realize the vibrating effect of superposition, be experienced to user with different vibrations.
In one example, the vibration module is applied in haptic feedback devices, coordinates the different driving of control device to calculate
Method, can bring different vibration senses to experience.In the example below, " 1 ", which is represented, to be connected, and " 0 ", which is represented, to be disconnected.Driving algorithm be respectively:
" 1*1*1 " represents X-axis, Y-axis, Z-direction and vibrated simultaneously, vibration sense superposition.This vibration sense can be used for mobile terminal
Communication prompt and alarm.
" 1*1*0 ", " 1*0*1 ", " 0*1*1 " are represented along X-axis and Y-axis, X-axis and Z axis, Y-axis and Z-direction vibration respectively.
This vibration sense is applied to the touch feedback that double taps of mobile terminal, slip/pulling and extension/are turned etc..For example, being applied to
In the vibration sense experience of some of some game function.
" 1*0*0 ", " 0*1*0 ", " 0*0*1 " are represented respectively to be vibrated along X-axis, Y-axis and Z-direction, it is adaptable to mobile terminal
The touch feedback such as tap, long-press and percussion.
First vibration module 11, the second vibration module 12 and the 3rd vibration module 13 have identical or different resonance frequency
Rate.For example, one in three vibration modules or 2 are set into high-frequency resonant module, another is set to low-frequency resonant
Module, this setup more adapts to requirement of the electronic equipment different scenes to vibrating effect.
Relative position between three vibration modules can be actually needed with evidence to be configured.In one example, as schemed
Shown in 3, the first vibration module 11, the second vibration module 12 and the 3rd vibration module 13 are arranged side by side.Three vibration modules are put
Seated position is not limited herein.For example, the 3rd vibration module 13 is arranged on the first vibration module 11 and the second vibration module 12
Between.Thus, it is possible to prevent that module is vibrated when being vibrated along Z-direction to be polarized, and is made more equal along the vibration of Z-direction
Weighing apparatus.In this example embodiment, three vibration modules are cuboid, and the vibration module of cuboid is simple in construction.The mode being arranged side by side
It is easy to the connection between three, and has adapted to the development trend of electronic equipment flattening.Three vibration modules link together
The vibration module of cuboid profile is constituted, cuboid profile is easy to vibrate the storage of module and is easily installed electronic equipment
In.
In one example, as shown in figure 4, the first vibration module 11, the second vibration module 12 and the 3rd vibration module 13
It is cuboid.First vibration module 11 and the 3rd vibration module 13 are arranged side by side, and the long side 14 of the second vibration module 12
Linked together with the long side 14 of the first vibration module 11 and the 3rd vibration module 13.This setup takes full advantage of Z axis
The space in direction, it is possible to achieve vibration module miniaturization.Preferably, three vibration modules link together composition cuboid
The vibration module of shape, in order to store and be easily installed in electronic equipment.
In one example, as shown in figure 5, the first vibration module 11, the second vibration module 12 and the 3rd vibration module 13
It is cuboid.Second vibration module 12 and the 3rd vibration module 13 are arranged side by side, the long side 14 of the first vibration module 11 and
The short side 15 of three vibration modules 13 and the second vibration module 12 links together, and the first vibration module 11 is located at the 3rd vibration module
13 and second vibration module 12 sidepiece.Preferably, three vibration modules link together, to constitute shaking for rectangular shape
Dynamic model group, in order to store and be easily installed in electronic equipment.
In one example, as shown in fig. 6, the first vibration module 11, the second vibration module 12 and the 3rd vibration module 13
It is cuboid.First vibration module 11 and the second vibration module 12 are set up in parallel, the long side 14 of the 3rd vibration module 13 and
The long side 14 of one vibration module 11 and the second vibration module 12 links together, and the 3rd vibration module 13 is located at the first vibration module
11 and second vibration module 12 sidepiece.Three vibration modules link together, to constitute the vibration module of rectangular shape, with
It is easy to store and is easily installed in electronic equipment.
Certainly, the shape of three vibration modules can be able to be circle, ellipse, triangle, regular polygon with not limited to this
Deng as long as being easy to be fixedly connected.
The utility model additionally provides a kind of vibration module, as Figure 7-9, and the vibration module includes:Housing 21, every
Plate 22, first vibrated in the first direction vibration monomer and the second vibration monomer vibrated in a second direction.Housing 21 has
Cavity, dividing plate 22 is arranged in cavity.First vibration monomer and the second vibration monomer are separated by dividing plate 22.First vibration monomer
There is identical or different resonant frequency with the second vibration monomer.The set-up mode of two vibration monomers can be according to actual need
Selected.
For example, the first vibration monomer includes the first oscillator 23, the first oscillator 23 is suspended above cavity by the first shell fragment 24
Interior, the first oscillator 23 is oppositely arranged with the first coil (not shown) being fixed on housing 21 or dividing plate 22.Second vibration is single
Body includes the second oscillator 25, and the second oscillator 25 is suspended above in cavity by the second shell fragment 26, and the second oscillator 25 is with being fixed on shell
The second coil (not shown) on body 21 or dividing plate 22 is oppositely arranged.
The vibration module has the two vibration monomers vibrated along different directions, and individually vibration can be real for two vibration monomers
Existing vibration of the vibration module on the first direction of vibration and the second direction of vibration;Two vibration monomers vibrate simultaneously, can realize
The vibrating effect of two vibration monomer superpositions.
Additionally due to two vibration monomers have identical or different resonant frequency, therefore vibrating effect can be made more
Sample, improves vibration sense experience.
The vibration module can provide a variety of vibration sense experience.
Fig. 8-9 shows one embodiment of the utility model vibration module.In this example embodiment, in addition to along third direction
3rd vibration monomer of vibration.For example, the 3rd vibration monomer includes the 3rd oscillator 27, the 3rd oscillator 27 passes through the quilt of the 3rd shell fragment 28
It is suspended in cavity, the 3rd oscillator 27 is oppositely arranged with the tertiary coil (not shown) being fixed on housing 21 or dividing plate 22.
First vibration monomer, the second vibration monomer and the 3rd vibration monomer are separated by dividing plate 22, the first vibration monomer, the second vibration monomer
There is identical or different resonant frequency with the 3rd vibration monomer.For example, the first vibration monomer is configured as shaking along Z-direction
Dynamic, the second vibration monomer is configured as vibrating along X-direction, and the 3rd vibration monomer is configured as vibrating along Y-direction.Three vibrations
The set-up mode of monomer can be selected according to actual needs.
When three, which are vibrated monomer, individually vibrates, vibration module can realize the vibrating effect in three directions;Shaken when three
When any two in dynamic monomer is vibrated, vibration module can realize three kinds of superpositing vibration effects by vibrating superposition;When three
Vibration monomer vibrates simultaneously when, vibration module can realize the superpositing vibration effect of three vibration monomers.So as to there is provided more
Vibration sense experience, to adapt to the application scenarios that electronic equipment is different.
Similarly, the vibration module can also be applied in haptic feedback devices, coordinate the different driving of control device to calculate
Method, can bring different vibration senses to experience.
Although some specific embodiments of the present utility model are described in detail by example, this area
It is to be understood by the skilled artisans that example above is merely to illustrate, rather than in order to limit scope of the present utility model.This
Field it is to be understood by the skilled artisans that can be in the case where not departing from scope and spirit of the present utility model, to above example
Modify.Scope of the present utility model is defined by the following claims.
Claims (11)
1. one kind vibration module, it is characterised in that including:The first vibration module (11) for vibrating in the first direction, along second party
To the second vibration module (12) of vibration, first vibration module (11) and second vibration module (12) are fixedly connected on
Together, first vibration module (11) and second vibration module (12) have identical or different resonant frequency.
2. vibration module according to claim 1, it is characterised in that first vibration module (11) is shaken with described second
Dynamic model block (12) is cuboid, and first vibration module (11) sets side by side or side by side with second vibration module (12)
Put.
3. vibration module according to claim 1, it is characterised in that also include:The 3rd vibration vibrated along third direction
Module (13), the 3rd vibration module (13) and first vibration module (11) and second vibration module (12) are fixed
Link together, first vibration module (11), second vibration module (12) and the 3rd vibration module (13) tool
There is identical or different resonant frequency.
4. vibration module according to claim 3, it is characterised in that first vibration module (11), described second shake
At least two in dynamic model block (12) and the 3rd vibration module (13) vibrate simultaneously.
5. vibration module according to claim 3, it is characterised in that first vibration module (11), described second shake
Dynamic model block (12) and the 3rd vibration module (13) are arranged side by side.
6. vibration module according to claim 3, it is characterised in that first vibration module (11), described second shake
Dynamic model block (12) and the 3rd vibration module (13) are cuboid;First vibration module (11) and the 3rd vibration
Module (13) is arranged side by side, and the long side (14) of second vibration module (12) and first vibration module (11) and institute
The long side (14) for stating the 3rd vibration module (13) links together, and second vibration module (12) is located at the described first vibration
Module (11) and the lower section of the 3rd vibration module (13).
7. vibration module according to claim 3, it is characterised in that first vibration module (11), described second shake
Dynamic model block (12) and the 3rd vibration module (13) are cuboid;3rd vibration module (13) and second vibration
Module (12) is arranged side by side, and long side (14) and the 3rd vibration module (13) and described second of first vibration module are shaken
The short side (15) of dynamic model block (12) links together, first vibration module (11) be located at the 3rd vibration module (13) and
The sidepiece of second vibration module (12).
8. vibration module according to claim 3, it is characterised in that first vibration module (11), described second shake
Dynamic model block (12) and the 3rd vibration module (13) are cuboid;First vibration module (11) and second vibration
Module (12) is set up in parallel, the long side (14) of the 3rd vibration module (13) and first vibration module (11) and described the
The long side (14) of two vibration modules (12) links together, and the 3rd vibration module (13) is located at first vibration module
(11) and second vibration module (12) sidepiece.
9. vibration module according to claim 3, it is characterised in that also including FPC, the first vibration mould
Block (11), second vibration module (12) and the 3rd vibration module (13) electrically connect with the FPC respectively
Connect.
10. a kind of vibration module, it is characterised in that including:Housing (21), dividing plate (22), first vibrated in the first direction shake
Dynamic monomer and the second vibration monomer vibrated in a second direction, the housing (21) have cavity, and the dividing plate (22) is set
Put in the cavity, the first vibration monomer and the second vibration monomer are separated by the dividing plate (22), described first
Vibration monomer and the second vibration monomer have identical or different resonant frequency.
11. vibration module according to claim 10, it is characterised in that also the 3rd vibration including being vibrated along third direction
Monomer, the first vibration monomer, the second vibration monomer and the 3rd vibration monomer are separated by the dividing plate (22), institute
Stating the first vibration monomer, the second vibration monomer and the 3rd vibration monomer has identical or different resonant frequency.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201720009202.1U CN206588004U (en) | 2017-01-04 | 2017-01-04 | One kind vibration module and vibration module |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201720009202.1U CN206588004U (en) | 2017-01-04 | 2017-01-04 | One kind vibration module and vibration module |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN206588004U true CN206588004U (en) | 2017-10-27 |
Family
ID=60127895
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201720009202.1U Active CN206588004U (en) | 2017-01-04 | 2017-01-04 | One kind vibration module and vibration module |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN206588004U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106622923A (en) * | 2017-01-04 | 2017-05-10 | 歌尔股份有限公司 | Vibration assembly and vibration modules |
-
2017
- 2017-01-04 CN CN201720009202.1U patent/CN206588004U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106622923A (en) * | 2017-01-04 | 2017-05-10 | 歌尔股份有限公司 | Vibration assembly and vibration modules |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN206834956U (en) | Linear vibration electric motor | |
| US10008894B2 (en) | Double resonance vibration motor | |
| US8912693B2 (en) | Broadband linear vibrator and mobile terminal | |
| CN106622923A (en) | Vibration assembly and vibration modules | |
| CN207603420U (en) | Linear vibration electric motor | |
| CN110112984A (en) | A kind of vibration control method and mobile terminal of linear motor | |
| CN105305761B (en) | Vibrating motor | |
| CN109742998A (en) | Vibration component, motor control method and terminal | |
| US11374506B2 (en) | Control method and system for reducing vibration of second casing of mobile terminal | |
| CN104137570B (en) | Sound producer, flexible piezoelectric sound-generating devices and electronic equipment | |
| CN105656274B (en) | A kind of linear vibration motor | |
| CN107113505A (en) | Vibrate output device and the portable electric appts including vibrating output device | |
| CN206588004U (en) | One kind vibration module and vibration module | |
| CN108153419B (en) | Electronic equipment and control method | |
| CN105591512B (en) | A kind of linear vibration motor | |
| CN106980373A (en) | Mobile terminal device, touch feedback and audio control method and system | |
| CN104396278A (en) | Sound generator, sound generation device, and electronic device | |
| KR20140029993A (en) | Display device and method for vibration generating in display device | |
| CN103999482A (en) | Acoustic generator, acoustic generation device, and electronic device | |
| CN202262076U (en) | Circuit board and display device | |
| US20200228898A1 (en) | Phase-shifting actuator driving signals and panel audio loudspeakers using the same | |
| US12096198B2 (en) | Actuator modules with reduced stiffness connections to panels and mobile devices including the same | |
| CN106208603B (en) | The linear vibrator of the horizontally disposed double vibrational systems of magnetic circuit | |
| CN205792138U (en) | Linear vibration motor | |
| CN106095100A (en) | Sense of touch feedback generation system and control method thereof, apply this system electronics |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant |