CN205725548U - A kind of motor sub-assembly and a kind of digital product - Google Patents

Abstract

The utility model discloses a kind of motor sub-assembly and a kind of digital product.Wherein said motor sub-assembly includes that the first linear motor and the second linear motor, described first linear motor and described second linear motor are vertically arranged in the same plane and are driven by different driving electric currents.In preferred version, this motor sub-assembly farther includes: third linear motor, is respectively perpendicular setting in the same plane with described first linear motor and the second linear motor, and is driven by different driving electric currents.When the first linear motor, the second linear motor and third linear motor shake simultaneously, this motor sub-assembly can be according to the vibrations new vibrations vector of Vector modulation one in vertical direction two-by-two, therefore can provide on 3 D plane, vibrations vector towards any one direction, this motor sub-assembly can be arranged on digital product, and then provide the user 360 degree of omnibearing vibrating effects, significantly enhance the sense of touch of user, improve Consumer's Experience.

Description

A kind of motor sub-assembly and a kind of digital product

Technical field

This utility model relates to electronic device field, particularly to a kind of motor sub-assembly and a kind of digital product.

Background technology

Along with the technology of digital product constantly improves, how promoting man-machine interaction becomes manufacturer's problem demanding prompt solution.A lot of digital products dressing classes and game class all can shake on suitable opportunity by arranging linear motor, vibrating effect passed to user, it is achieved to functions such as the promptings of user, becomes a kind of new paragon of man-machine interaction.But, existing digital product arranges single linear motor the most in one direction, therefore the vibrations on a direction can only be provided, the most just can only provide the user the sense of touch on a direction, it is impossible to meet the multi-faceted experience of user.

Utility model content

In view of the above problems, it is proposed that this utility model is to provide and overcoming the problems referred to above or solve a kind of motor sub-assembly of the problems referred to above and a kind of digital product at least in part.

According to an aspect of the present utility model, it is provided that a kind of motor sub-assembly, it is vertically arranged in the same plane including the first linear motor and the second linear motor, described first linear motor and described second linear motor and is driven by different driving electric currents.

Alternatively, described motor sub-assembly farther includes: third linear motor, is vertically arranged in the same plane with described first linear motor, and is vertically arranged in the same plane with the second linear motor；

Described first linear motor, the second linear motor and third linear motor are driven by different driving electric currents.

Alternatively, described digital product includes one or more motor sub-assembly as described in above-mentioned any one；

Each linear motor in the one or more motor sub-assembly is separately fixed at the case inside of described digital product.

Alternatively, described digital product is portable equipment or Wearable.

From the above, this utility model provides a kind of motor sub-assembly, including the first linear motor being vertically arranged in the same plane and the second linear motor, the two linear motor is driven by different driving electric currents, therefore can produce vibrating effect respectively in two mutually perpendicular directions.When the first linear motor and the second linear motor shake simultaneously, therefore this motor sub-assembly can also provide on same plane, towards the vibrations vector in any one direction according to the vibrations new vibrations vector of Vector modulation one in two vertical direction.In preferred version, motor sub-assembly of the present utility model farther includes: third linear motor, is vertically arranged in the same plane with described first linear motor and the second linear motor respectively, and is driven by different driving electric currents.The motor sub-assembly of preferred version can be according to the vibrations new vibrations vector of Vector modulation one in three vertical direction, therefore vibrations vector towards any one direction on 3 D plane can be provided, this motor sub-assembly is arranged on digital product, 360 degree of omnibearing vibrating effects can be provided the user, significantly enhance the sense of touch of user, improve Consumer's Experience.

Described above is only the general introduction of technical solutions of the utility model, in order to better understand technological means of the present utility model, and can be practiced according to the content of description, and in order to above and other objects, features and advantages of the present utility model can be become apparent, below especially exemplified by detailed description of the invention of the present utility model.

Accompanying drawing explanation

By reading the detailed description of hereafter preferred implementation, various other advantage and benefit those of ordinary skill in the art be will be clear from understanding.Accompanying drawing is only used for illustrating the purpose of preferred implementation, and is not considered as restriction of the present utility model.And in whole accompanying drawing, it is denoted by the same reference numerals identical parts.In the accompanying drawings:

Fig. 1 shows the structural representation of a kind of motor sub-assembly according to one embodiment of this utility model；

Fig. 2-a and Fig. 2-b respectively illustrates the schematic diagram producing shock momentum in all directions in the first linear motor and the vertically disposed plane of the second linear motor of the motor sub-assembly according to one embodiment of this utility model；

Fig. 3 shows the structural representation of the another kind of motor sub-assembly according to one embodiment of this utility model；

Fig. 4-a and Fig. 4-b respectively illustrates the motor sub-assembly according to one embodiment of this utility model and produces the schematic diagram of the shock momentum in all directions on three dimensions；

Fig. 5 shows the structural representation of a kind of digital product according to one embodiment of this utility model.

Detailed description of the invention

It is more fully described the exemplary embodiment of the disclosure below with reference to accompanying drawings.Although accompanying drawing showing the exemplary embodiment of the disclosure, it being understood, however, that may be realized in various forms the disclosure and should not limited by embodiments set forth here.On the contrary, it is provided that these embodiments are able to be best understood from the disclosure, and complete for the scope of the present disclosure can be conveyed to those skilled in the art.

See Fig. 1, show the structural representation of a kind of motor sub-assembly according to one embodiment of this utility model, as shown in Figure 1, motor sub-assembly 100 includes the first linear motor 110 and the second linear motor 120, the first linear motor 110 and the second linear motor 120 is vertically arranged in the same plane and is driven by different driving electric currents.Linear motor has fast response time, and vibration frequency is fixed, and changes the different electric currents that drives and can obtain the advantages such as different shock momentums, therefore selects linear motor to be designed in embodiment of the present utility model.

Fig. 2-a and Fig. 2-b respectively illustrates the schematic diagram producing shock momentum in all directions in the first linear motor and the vertically disposed plane of the second linear motor of the motor sub-assembly according to one embodiment of this utility model.As shown in Fig. 2-a, the vibrations direction of the first linear motor is set to Y-axis, the vibrations direction of the second linear motor is set to X-axis.So in the first linear motor vibration, when the second linear motor does not shakes, motor sub-assembly just can produce the shock momentum along Y-axis；Shaking at the second linear motor, when the first linear motor does not shakes, motor sub-assembly just can produce the shock momentum along X-axis.Wherein, the first linear motor, the shock momentum of the second linear motor can be controlled by different driving electric currents.

When the first linear motor and the second linear motor shake simultaneously, as shown in Fig. 2-b, first linear motor produces a shock momentum along Y-axis positive direction, second linear motor produces a shock momentum along X-axis positive direction, according to Vector modulation rule, a shock momentum on third direction can be synthesized according to the first linear motor and the respective shock momentum of the second linear motor.So, according to the difference of the shock momentum in X-axis and Y direction, the compound direction of the shock momentum of synthesis is different, and shock momentum in the direction is the most different, and the vibrating effect finally passed out is the abundantest.

Visible, motor sub-assembly shown in Fig. 1, including the first linear motor being vertically arranged in the same plane and the second linear motor, the two linear motor is driven by different driving electric currents, therefore can produce vibrating effect respectively in two mutually perpendicular directions.When the first linear motor and the second linear motor shake simultaneously, this motor sub-assembly can also be according to the vibrations new vibrations vector of Vector modulation one in two vertical direction, therefore can provide on same plane, vibrations vector towards any one direction, this motor sub-assembly can be arranged on digital product, and then provide the user 360 degree of omnibearing vibrating effects in a plane, significantly enhance the sense of touch of user, improve Consumer's Experience.

Further, Fig. 3 shows the structural representation of the another kind of motor sub-assembly according to one embodiment of this utility model, as shown in Figure 3, motor sub-assembly 300 includes: be vertically arranged the first linear motor 310 and the second linear motor 320 in the same plane, this motor sub-assembly farther includes: third linear motor 330, it is vertically arranged in the same plane with the first linear motor 310, and is vertically arranged in the same plane with the second linear motor 320；

First linear motor the 310, second linear motor 320 and third linear motor 330 are driven by different driving electric currents.

Fig. 4-a and Fig. 4-b respectively illustrates the motor sub-assembly according to one embodiment of this utility model and produces the schematic diagram of the shock momentum in all directions on three dimensions.

As depicted in fig. 4-a, the vibrations direction of the first linear motor is set to Y-axis, the vibrations direction of the second linear motor is set to X-axis, the vibrations direction of third linear motor is set to Z axis.So in the first linear motor vibration, when the second linear motor and third linear motor do not shake, motor sub-assembly just can produce the shock momentum along Y-axis；Shaking at the second linear motor, when the first linear motor and third linear motor do not shake, motor sub-assembly just can produce the shock momentum along X-axis；When third linear motor vibration, the first linear motor and the second linear motor do not shake, motor sub-assembly just can produce the shock momentum along X-axis.Wherein, the shock momentum of the first linear motor, the second linear motor and third linear motor can be controlled by different driving electric currents.

Two linear motors in this motor sub-assembly shake simultaneously, and when another linear motor does not shakes, principle design sketch is identical with Fig. 2-b, does not repeats them here.When the first linear motor, the second linear motor and third linear motor shake simultaneously, as shown in Fig. 3-b, first linear motor produces a shock momentum along Y-axis positive direction, second linear motor produces a shock momentum along X-axis positive direction, third linear motor produces a shock momentum along Z axis positive direction, according to Vector modulation rule, a shock momentum in fourth direction can be synthesized according to the first linear motor, the second linear motor and the respective shock momentum of third linear motor.So, according to the difference of the shock momentum in X-axis, Y-axis and Z axis all directions, the compound direction of the shock momentum also synthesized is different, and shock momentum in the direction is the most different, and the vibrating effect finally passed out is the abundantest.

Therefore, motor sub-assembly shown in Fig. 3, enrich vibrations direction further, vibrating effect can be transmitted in all directions in three dimensions, when motor sub-assembly is arranged on digital product, provide the user the omnibearing vibrating effect of three dimensions, significantly enhance the sense of touch of user, improve Consumer's Experience.

Fig. 5 shows the structural representation of a kind of digital product according to one embodiment of this utility model, as it is shown in figure 5, digital product 500 includes one or more such as the motor sub-assembly 510 in above-mentioned any embodiment；Wherein, each linear motor in one or more motor sub-assemblies 510 is separately fixed at the case inside of digital product.Specifically, digital product 500 can be portable equipment or Wearable, such as game paddle, intelligent watch, Intelligent bracelet etc..These products arrange motor sub-assembly, the function such as audio and video playing and the game that can coordinate digital product itself, provide the user the splendid thoughts and feelings of many sense organs, make user the most immersively experience multiple analog scene.

In sum, the motor sub-assembly that this utility model provides, including the first linear motor being vertically arranged in the same plane and the second linear motor, the two linear motor is driven by different driving electric currents, therefore can produce vibrating effect respectively in two mutually perpendicular directions.When the first linear motor and the second linear motor shake simultaneously, therefore this motor sub-assembly can also provide on same plane, towards the vibrations vector in any one direction according to the vibrations new vibrations vector of Vector modulation one in two vertical direction.In preferred version, motor sub-assembly of the present utility model farther includes: third linear motor, is vertically arranged in the same plane with described first linear motor and the second linear motor respectively, and is driven by different driving electric currents.The motor sub-assembly of preferred version can be according to the vibrations new vibrations vector of Vector modulation one in three vertical direction, therefore vibrations vector towards any one direction on 3 D plane can be provided, this motor sub-assembly is arranged on digital product, 360 degree of omnibearing vibrating effects can be provided the user, significantly enhance the sense of touch of user, improve Consumer's Experience.

The foregoing is only preferred embodiment of the present utility model, be not intended to limit protection domain of the present utility model.All any modification, equivalent substitution and improvement etc. made within spirit of the present utility model and principle, are all contained in protection domain of the present utility model.

Claims (4)

1. a motor sub-assembly, it is characterised in that described motor sub-assembly includes the first linear motor and second Linear motor, described first linear motor and described second linear motor be vertically arranged in the same plane and Driven by different driving electric currents.

2. motor sub-assembly as claimed in claim 1, it is characterised in that described motor sub-assembly wraps further Include: third linear motor, be vertically arranged in the same plane with described first linear motor, and with second Linear motor is vertically arranged in the same plane；

Described first linear motor, the second linear motor and third linear motor are by different driving electric currents Drive.

3. a digital product, it is characterised in that described digital product include one or more as right want Seek the motor sub-assembly described in 1 or 2；

Each linear motor in the one or more motor sub-assembly is separately fixed at described digital product Case inside.

4. digital product as claimed in claim 3, it is characterised in that described digital product is hand-held Equipment or Wearable.