CN205092752U - Linear vibrating motor - Google Patents

Abstract

The utility model provides a linear vibrating motor, including oscillator and stator, oscillator wherein includes the permanent magnet of two piece at least adjacent settings and sets up the magnetic conduction yoke between adjacent permanent magnet to, the contiguous end polarity identical of two permanent magnets of adjacent setting, the stator includes the coil and sets up the guiding core in the coil, and, the permanent magnet to magnetize the direction perpendicular with the axis direction of coil. The utility model discloses with the help of the strength of repelling between two permanent magnet polarity identical's the both ends, the magnetic line of force of messenger's permanent magnet can be concentrated and pass the coil to obtain bigger magnetic flux and the stronger sense effect of shaking.

Description

Linear vibration motor

Technical field

The utility model relates to consumer electronics field, more specifically, relates to a kind of linear vibration motor being applied to portable consumer electronics product.

Background technology

Along with the development of the communication technology, portable type electronic product, as mobile phone, handheld device or palm multimedia entertainment equipment etc. enter the life of people.In these portable type electronic products, generally can do system feedback with vibrating motor, the incoming call prompting of such as mobile phone, the vibrational feedback etc. of game machine.But along with the lightening development trend of electronic product, the various components and parts of its inside also need to adapt to this trend, and vibrating motor is no exception.

Existing vibrating motor, generally comprise upper cover and with upper cover formed oscillation space lower cover, do in oscillation space linear vibration oscillator (comprising balancing weight and permanent magnet), be connected upper cover and make oscillator do the elastic supporting member for supporting optical member of double vibrations and be positioned at the coil of a segment distance below oscillator.

In the vibrating motor of above-mentioned this structure, permanent magnet and coil are all orthogonal placements, namely the magnetizing direction of permanent magnet and the axis direction of coil parallel so that the magnetic line of force of permanent magnet can pass perpendicularly through coil, utilize the magnetic field of permanent magnet as far as possible fully.But, the vibrating motor of above-mentioned this structure, the magnetic line of force that the permanent magnet in oscillator itself produces compares dispersion, still can not get of producing utilizes fully, the relative magnetic flux through coil also can be smaller, and the active force of generation can be smaller, affects vibration sense effect; When moving to two ends, the mode that magnetizes of holding up is also little through the magnetic flux of voice coil loudspeaker voice coil, thus the vibration sense straight-line oscillation response speed having influence on electronic product compared with slow, vibration sense is little.

Utility model content

In view of the above problems, the purpose of this utility model is to provide a kind of level to magnetizing motor, by the repulsion strength between the two ends that two permanent magnet polarity is identical, the magnetic line of force of permanent magnet is concentrated through coil, thus obtain larger magnetic flux and stronger vibration sense effect.

The linear vibration motor that the utility model provides, comprise oscillator and stator, wherein, the permanent magnet that oscillator comprises at least two pieces of adjacent settings and the conductive magnetic yoke be arranged between adjacent permanent magnet, further, the abutting end polarity of two block permanent magnets of adjacent setting is identical; Stator pack vinculum circle and the magnetic conduction core be arranged in described coil; Further, the magnetizing direction of permanent magnet and the axis direction of coil vertical.

Wherein, preferred scheme is, conductive magnetic yoke and magnetic conduction core Heterogeneous Permutation.

Wherein, preferred scheme is, between conductive magnetic yoke and the magnetic conduction core corresponding with conductive magnetic yoke, the distance d of horizontal direction is positioned in the number range of [0.1mm, 0.3mm].

Wherein, preferred scheme is, stator and oscillator in the vertical direction are arranged, and the direction of vibration of oscillator is parallel to the mounting plane of stator.

Wherein, preferred scheme is, oscillator comprises three block permanent magnets, is provided with one piece of conductive magnetic yoke between two adjacent block permanent magnets; Two coils that stator comprises setting corresponding with oscillator and the magnetic conduction core be separately positioned in two coils; Conductive magnetic yoke and magnetic conduction core staggered, and two magnetic conduction cores are all positioned at the position of the conductive magnetic yoke corresponding with it away from described oscillator center.

Wherein, preferred scheme is that oscillator also comprises balancing weight, is provided with the avoiding structure of dodging stator at the middle part of balancing weight; On balancing weight, the center of avoiding structure is provided with the groove holding permanent magnet and conductive magnetic yoke.

Wherein, preferred scheme is, after magnet and conductive magnetic yoke one are fixed, fixing in a groove in the mode of gluing or laser electric welding.

Wherein, preferred scheme is, be respectively arranged with at the two ends of balancing weight vibration the axis of guide, limit spring and guide vane end stop, limit spring be set in vibration the axis of guide on and spacing between balancing weight and guide vane end stop; Further, be provided with in guide vane end stop for the reciprocating pilot hole of the vibration axis of guide; One end that the vibration axis of guide gos deep into pilot hole is arranged with axle sleeve.

Wherein, preferred scheme also comprises shell; The vibration axis of guide is fixedly connected with balancing weight, and guide vane end stop is fixedly connected with shell; Or the vibration axis of guide is fixedly connected with shell, and guide vane end stop is fixedly connected with balancing weight.

Wherein, preferred scheme is, balancing weight is tungsten steel block, nickel steel block or nickel tungsten block.

Above-mentioned according to linear vibration motor of the present utility model, jump out the motors designs thinking of existing orthogonal placement permanent magnet and coil, by the permanent magnet horizontal positioned of oscillator, make the magnetizing direction of permanent magnet vertical with the axis direction of coil, and make direction of vibration and the stator place plane parallel of oscillator, make the abutting end polarity of adjacent permanent magnet identical, thus the magnetic line of force of permanent magnet is concentrated by the strength of two like magnetic poles repel each other, that stator can obtain magnetic flux large as far as possible, simultaneously, the mode of parallel arrangement up and down of stator and oscillator also effectively reduces the volume of motor, be more conducive to the miniaturized application of motor.

Accompanying drawing explanation

By reference to the content below in conjunction with the description of the drawings and claims, and understand more comprehensively along with to of the present utility model, other object of the present utility model and result will be understood and easy to understand more.In the accompanying drawings:

Fig. 1 is the overall detonation configuration schematic diagram of the linear vibration motor according to embodiment of the present utility model;

Fig. 2 is the combining structure schematic diagram of the linear vibration motor according to embodiment of the present utility model;

Fig. 3 a and Fig. 3 b is respectively vibrating mass according to the utility model embodiment and stator combined structure schematic diagram;

Fig. 4 is the operation principle schematic diagram according to the utility model embodiment;

Fig. 5 a and Fig. 5 b is respectively vibrating mass according to another embodiment of the utility model and stator combined structure schematic diagram.

In figure: upper casing 1, bonnet 2, balancing weight 31, permanent magnet 32a, 32b, 32c, 32a ', 32b ', conductive magnetic yoke 33a, 33b, 33a ', coil 41a, 41b, 41 ', magnetic conduction core 42a, 42b, 42 ', the vibration axis of guide 51a, 51b, limit spring 52a, 52b, guide vane end stop 53a, 53b, axle sleeve 54a, 54b, flexible circuit board 7.

Label identical in all of the figs indicates similar or corresponding feature or function.

Embodiment

In the following description, for purposes of illustration, in order to provide the complete understanding to one or more embodiment, many details have been set forth.But, clearly, also these embodiments can be realized when there is no these details.In other example, one or more embodiment for convenience of description, known structure and equipment illustrate in block form an.

The utility model " balancing weight " used when stating embodiment may also be referred to as " mass ", all refers to high-quality, the high desnity metal block of fixing to strengthen vibration balancing with vibrative permanent magnet.

Below with reference to accompanying drawing, specific embodiment of the utility model is described in detail.

In order to solve the problem of the magnetic line of force dispersion caused due to permanent magnet and the orthogonal placement of coil in existing vibrating motor structure, the linear vibration motor that the utility model provides, permanent magnet in oscillator is adjoined horizontal positioned, and stator is placement parallel with oscillator then.That is, in linear vibration motor of the present utility model, oscillator comprises the permanent magnet of at least two pieces of adjacent settings, and the abutting end polarity of two block permanent magnets of adjacent setting is identical, and the magnetizing direction of permanent magnet is vertical with the axis direction of the coil in stator.

Particularly, Fig. 1 and Fig. 2 respectively illustrates overall detonation configuration according to the linear vibration motor of embodiment of the present utility model and combining structure.

As Fig. 1 and Fig. 2 jointly shown in, the linear vibration motor of the present embodiment mainly comprises shell, oscillator and stator, and stator and oscillator in the vertical direction are arranged.Wherein, shell comprises upper casing 1 and bonnet 2; Oscillator comprises balancing weight 31 and vibrating mass, and vibrating mass is made up of three block permanent magnet 32a, 32b, 32c of adjacent setting and conductive magnetic yoke 33a, the 33b be separately positioned between adjacent permanent magnet; Two coils 41a, 41b that stator comprises setting corresponding with oscillator and magnetic conduction core 42a, 42b of being separately positioned in coil.Conductive magnetic yoke and magnetic conduction core staggered, each magnetic conduction core is all positioned at the position of the conductive magnetic yoke corresponding with it away from oscillator center, should " correspondence " refer to interact and change the magnetic line of force move towards magnetic conduction core/conductive magnetic yoke.In the example shown, the staggered order of conductive magnetic yoke and magnetic conduction core is: magnetic conduction core 42a, conductive magnetic yoke 33a, conductive magnetic yoke 33b, magnetic conduction core 42b, and wherein, 42a is corresponding with conductive magnetic yoke 33a for magnetic conduction core, and conductive magnetic yoke 33b is corresponding with magnetic conduction core 42b.

Wherein, the combining structure of vibrating mass and stator as shown in Figure 3 a and Figure 3 b shows.In three block permanent magnets of adjacent setting, each permanent magnet is identical with the polarity of the abutting end of adjacent permanent magnet, i.e. order (as shown in Figure 3 a) or N-S, S-N, N-S order (as shown in Figure 3 b) arrangement in S-N, N-S, S-N, conductive magnetic yoke is arranged between adjacent permanent magnet, and the magnetizing direction of permanent magnet is vertical with the axis direction of the coil of stator.Herein, the axis direction of coil is the direction at the central axis place of coil and magnetic conduction core wherein, and in the embodiment shown in Fig. 3 a and Fig. 3 b, the magnetizing direction of magnet is horizontal direction, and the axis direction of coil is vertical direction.The strength of repelling each other can be produced due between the two ends that the polarity that two permanent magnets are adjacent is identical, therefore, the magnetic line of force of permanent magnet can to concentrate by adjacent two permanent magnets between conductive magnetic yoke and the coil that is arranged on below vibrating mass, thus increase the magnetic flux through coil as far as possible.

Below by for the operation principle of Fig. 4 simple declaration the utility model linear vibration motor.According to the left hand rule judging electrical conductor Impact direction in magnetic field, stretch out left hand, make thumb and all the other four finger vertical, and all with palm in same plane; Allow magnetic induction line enter from the centre of the palm, and make four fingers point to sense of current, at this moment the direction of thumb indication is exactly the direction of electrified wire suffered Ampere force in magnetic field.Suppose the sense of current in coil, be denoted as in figure " " sense of current be vertical view towards inner, be denoted as " " sense of current be vertical view towards outward, suppose first coil be " with ", second coil must also be " with ", such coil just can all stressed F to the right, because coil maintains static, based on the relation of active force and reaction force, then and the stressed F ' left of permanent magnet.So, the permanent magnet being subject to motive force left just drives balancing weight to do translational motion left together, thus the spring on the left of extruding balancing weight, the spring on the right side of stretching balancing weight.In like manner, when the current direction changes, according to left hand rule, the direction of the magnetic field force F that coil is subject to is for left.But because coil maintains static, then permanent magnet is subject to active force that is contrary with F direction and the F ' that size is identical, the permanent magnet being subject to motive force to the right just drives balancing weight to do translational motion to the right together, makes the spring at balancing weight two ends continue to be stretched/to extrude after the reinstatement of extruding/extended state simultaneously.Above-mentioned motion hockets, and the oscillator that the vibrating mass of permanent magnet and conductive magnetic yoke composition and balancing weight are formed moves reciprocatingly in the direction of the mounting plane being parallel to stator.

In the above-described embodiments, vibrating mass comprises three block permanent magnets, but is also not limited to said structure in concrete application process, also suitably can select the quantity of the permanent magnet forming vibrating mass according to the size of vibration force needed for application product.The vibrating mass be made up of two block permanent magnets illustrated respectively as more permanent magnet or Fig. 5 a and Fig. 5 b and the combining structure of stator.

As shown in figure 5 a and 5b, vibrating mass comprises two block permanent magnet 32a ', the 32b ' of adjacent setting, the abutting end polarity of this two block permanent magnet is identical, and between this two block permanent magnet 32a ', 32b ', be provided with conductive magnetic yoke 33a ', by coil 41 ' be arranged on the below that stator that the magnetic conduction core 42 ' in coil 41 ' forms is arranged on vibrating mass, conductive magnetic yoke 33a ' and magnetic conduction core 42 ' Heterogeneous Permutation.

In the embodiment shown in Fig. 1 and Fig. 2, vibrating mass is embedded in balancing weight, to drive balancing weight horizontal vibration.Particularly, be provided with the avoiding structure of dodging stator at the middle part of balancing weight, the center that balancing weight is provided with avoiding structure is provided with the groove holding vibrating mass.In concrete assembling process, first the permanent magnet of composition vibrating mass and conductive magnetic yoke can be fixed together, then in modes such as gluing or laser electric welding, vibrating mass entirety be fixed in a groove.

In addition, linear vibration motor of the present utility model also comprises two the vibrations axis of guide (51a, 51b), limit spring (52a, 52b) and guide vane end stops (53a, 53b) being arranged on balancing weight 31 two ends, and limit spring is set on the vibration axis of guide 51a, 51b.In the embodiment shown in Fig. 1, Fig. 2, guide vane end stop 53a, 53b are separately fixed on upper casing 1, two the vibration axis of guides 51a, 51b are separately fixed at the two ends of balancing weight 31, guide vane end stop 53a, 53b are also provided with for the reciprocating pilot hole of the vibration axis of guide.Like this, under the effect in the magnetic field that vibrating mass produces after stator energising, drive balancing weight 31 and be fixed on the vibration axis of guide 51a, 51b limited range internal vibration at pilot hole at balancing weight 31 two ends.

Wherein, be set in the vibration axis of guide 51a, 51b upper limit spring 52a, 52b respectively and be limited between guide vane end stop 53a, 53b of balancing weight 31 and correspondence respectively, for the vibration of oscillator provides elastic restoring force.

In addition, in order to reduce the frictional force between the vibration axis of guide and pilot hole, improve the quality of products as far as possible, can also on one end that the vibration axis of guide gos deep into pilot hole sheathed axle sleeve 54a, 54b, the contact-making surface smooth abrasion-proof of axle sleeve and pilot hole.The increase of axle sleeve reduces the contact area of the vibration axis of guide and pilot hole, and the material that density is high, smooth surface is wear-resisting can be adopted to make axle sleeve, on the basis not increasing cost, the frictional force between the vibration axis of guide and pilot hole can be reduced as far as possible, improve degree of lubrication.

As another execution mode of the present utility model, also guide vane end stop can be separately fixed at the two ends of balancing weight, or balancing weight and guide vane end stop are designed to integrative-structure, guide vane end stop is arranged for the reciprocating pilot hole of the vibration axis of guide, and two vibration axis of guides are separately fixed on upper casing, axle sleeve is set in one end (in this case near one end of balancing weight) with pilot hole effect on the axis of guide.Like this, under the effect in the magnetic field that vibrating mass produces after stator energising, drive balancing weight and be fixed on guide vane end stop edge vibration axis of guide vibration in the limited range of pilot hole at balancing weight two ends.

Obviously, the amplitude of oscillator vibration determines that the vibration axis of guide gos deep into the degree of depth of pilot hole, the vibration axis of guide gos deep into the degree of depth of end-to-end distance from the bottom of pilot hole and the outer peripheral width of Edge Distance stator of avoiding structure of pilot hole.At Fig. 1, Fig. 2 and Fig. 3 a, in embodiment shown in Fig. 3 b, between conductive magnetic yoke and the magnetic conduction core corresponding with conductive magnetic yoke, the distance d of horizontal direction is positioned at [0.1mm, 0.3mm] number range in, that is, the horizontal range of the center line of the magnetic conduction core of distance between center line corresponding (the also namely nearest) stator of each conductive magnetic yoke is 0.1 ~ 0.3mm, so, the corresponding vibration axis of guide gos deep into the degree of depth of pilot hole, the vibration axis of guide gos deep into the end-to-end distance of pilot hole all should slightly larger than 0.2mm from the degree of depth of the bottom of pilot hole and the outer peripheral width of Edge Distance stator of avoiding structure.

Balancing weight 31 can adopt tungsten steel block or nickel steel block or the contour density-metal material of nickel tungsten to make, and to strengthen vibration force, makes the vibration of electronic product stronger.

In addition, the linear vibration motor that the utility model provides also comprises flexible circuit board (PFCB) 7, stator is fixed on FPCB7, the coil lead of stator is by the circuit on FPCB7 and external circuit UNICOM, FPCB7 and upper casing 1 are fixed, and bonnet 2 can be fixed by the mode of buckle and FPCB7.

Describe in an illustrative manner according to linear vibration motor of the present utility model above with reference to accompanying drawing.But, it will be appreciated by those skilled in the art that the linear vibration motor that above-mentioned the utility model is proposed, various improvement can also be made on the basis not departing from the utility model content.Therefore, protection range of the present utility model should be determined by the content of appending claims.

Claims (10)

1. a linear vibration motor, comprises oscillator and stator, it is characterized in that,

The permanent magnet that described oscillator comprises at least two pieces of adjacent settings and the conductive magnetic yoke be arranged between adjacent permanent magnet, and the abutting end polarity of two block permanent magnets of adjacent setting is identical;

Described stator pack vinculum circle and the magnetic conduction core be arranged in described coil; Further,

The magnetizing direction of described permanent magnet is vertical with the axis direction of described coil.

2. linear vibration motor as claimed in claim 1, is characterized in that,

Described conductive magnetic yoke and described magnetic conduction core Heterogeneous Permutation.

3. linear vibration motor as claimed in claim 2, wherein,

Between described conductive magnetic yoke and the described magnetic conduction core corresponding with described conductive magnetic yoke, the distance d of horizontal direction is positioned in the number range of [0.1mm, 0.3mm].

4. linear vibration motor as claimed in claim 1, it is characterized in that, described stator and described oscillator in the vertical direction are arranged, and the direction of vibration of described oscillator is parallel to the mounting plane of described stator.

5. the linear vibration motor as described in claim 1 or 2 or 4, is characterized in that,

Described oscillator comprises three block permanent magnets, is provided with one piece of conductive magnetic yoke between two adjacent block permanent magnets;

Two coils that described stator comprises setting corresponding with described oscillator and the magnetic conduction core be separately positioned in described two coils;

Described conductive magnetic yoke and described magnetic conduction core staggered, and two described magnetic conduction cores are all positioned at the position of the conductive magnetic yoke corresponding with it away from described oscillator center.

6. linear vibration motor as claimed in claim 1, it is characterized in that, described oscillator also comprises balancing weight, wherein,

The avoiding structure of dodging described stator is provided with at the middle part of described balancing weight;

On described balancing weight, the center of avoiding structure is provided with the groove holding described permanent magnet and conductive magnetic yoke.

7. linear vibration motor as claimed in claim 6, is characterized in that,

Described magnet and conductive magnetic yoke one are fixed in described groove in the mode of gluing or laser electric welding after fixing.

8. linear vibration motor as claimed in claim 6, is characterized in that,

Be respectively arranged with the vibration axis of guide, limit spring and guide vane end stop at the two ends of described balancing weight, described limit spring to be set on the described vibration axis of guide and spacing between described balancing weight and described guide vane end stop; Further,

Be provided with for the reciprocating pilot hole of the described vibration axis of guide in described guide vane end stop;

One end that the described vibration axis of guide gos deep into described pilot hole is arranged with axle sleeve.

9. linear vibration motor as claimed in claim 8, is characterized in that,

Also comprise shell;

The described vibration axis of guide is fixedly connected with described balancing weight, and described guide vane end stop is fixedly connected with described shell; Or,

The described vibration axis of guide is fixedly connected with described shell, and described guide vane end stop is fixedly connected with described balancing weight.

10. linear vibration motor as claimed in claim 6, it is characterized in that, described balancing weight is tungsten steel block, nickel steel block or nickel tungsten block.