CN206341121U - Linear vibration electric motor - Google Patents

Abstract

The application is related to linear vibration electric motor, including shell and the shell cover the cover plate to form host cavity, and fixation kit, vibration component and the Flexible Connector being contained in the host cavity；The Flexible Connector is connected with the vibration component and the vibration component is suspended in the host cavity；The vibration component includes magnetic steel component；The fixation kit includes the hot-wire coil with the first lead-out wire and the second lead-out wire；The fixation kit also includes the magnetic conductor being arranged on the hot-wire coil；The magnetic conductor has relief portion, and first lead-out wire is located in the relief portion with second lead-out wire.This solution avoids the interference of the first lead-out wire and the second lead-out wire and magnetic conductor, the risk that the first lead-out wire and the second lead-out wire are pressed down is reduced.

Description

Linear vibration electric motor

Technical field

The application is related to vibrating motor technical field, more particularly to a kind of linear vibration electric motor.

Background technology

The parts such as coil, iron core are generally included in linear vibration electric motor, coil is formed by enamel-covered wire coiling, after coiling, The two ends of enamel-covered wire each extend over out connecting wire, and connecting wire is used to electrically connect with other parts.

However, when iron core is arranged on coil, iron core is easily interfered with the connecting wire of coil, causes iron core pair The extruding of connecting wire, is also possible to that connecting wire can be broken when serious.

It is, therefore, desirable to provide a kind of improved plan solves drawbacks described above.

Utility model content

The embodiment of the present application provides a kind of linear vibration electric motor, can improve drawbacks described above.

The cover plate to form host cavity is covered this application provides a kind of linear vibration electric motor, including shell and the shell, And it is contained in fixation kit, vibration component and Flexible Connector in the host cavity；The Flexible Connector with it is described Vibration component connects and the vibration component is suspended in the host cavity；The vibration component includes magnetic steel component；It is described Fixation kit includes the hot-wire coil with the first lead-out wire and the second lead-out wire；The fixation kit also includes being arranged on described Magnetic conductor on hot-wire coil；The magnetic conductor has relief portion, and first lead-out wire is located at institute with second lead-out wire State in relief portion.

Preferably, the relief portion includes the first escape groove and the second escape groove, and first escape groove and described the Two escape groove are spaced apart；First lead-out wire is located in first escape groove, and second lead-out wire is positioned at described In second escape groove.

Preferably, the relief portion also includes the 3rd escape groove and the 4th escape groove；3rd escape groove and described the Two escape groove are abutted and are spaced apart, and the 3rd escape groove and axle center of first escape groove on the hot-wire coil Be centrosymmetric structure；4th escape groove is abutted and is spaced apart with the first escape groove, and the 4th escape groove and institute The second escape groove is stated to be centrosymmetric structure on the axle center of the hot-wire coil.

Preferably, the hot-wire coil has accommodating hole；The magnetic conductor includes the insertion inserted inside the accommodating hole Portion, and the abutting part for being connected and being located at outside the accommodating hole with the insertion section；The abutting part and the insertion section Composition surface is connected on the end face of the hot-wire coil；The relief portion is from the composition surface along the side away from the hot-wire coil Formed to depression.

Preferably, the linear vibration electric motor includes two magnetic conductors, and the abutment portion of two magnetic conductors It is not connected in the relative both ends of the surface of the hot-wire coil.

Preferably, the insertion section of two magnetic conductors is mutually abutted in the accommodating hole.

Preferably, the vibration component also includes mass；Mass described in the Flexible Connector resilient clamp so that The vibration component suspension；Mounting hole is offered on the mass；The magnetic steel component includes being respectively accommodated in the installation In hole and along direction of vibration the first magnet steel and the second magnet steel that are intervally installed of the vibration component；

The hot-wire coil is located between first magnet steel and second magnet steel, and the end face of the hot-wire coil hangs down Directly in the direction of vibration of the vibration component.

The technical scheme that the application is provided can reach following beneficial effect：By the way that magnetic conductor is arranged on into hot-wire coil On, and the relief portion that the first lead-out wire and second lead-out wire for hot-wire coil are avoided is set on magnetic conductor, it is to avoid the The interference of one lead-out wire and the second lead-out wire and magnetic conductor, reduces the wind that the first lead-out wire and the second lead-out wire are pressed down Danger.

It should be appreciated that the general description of the above and detailed description hereinafter are only exemplary, this can not be limited Application.

Brief description of the drawings

Hot-wire coil and the scheme of installation I of magnetic conductor that Fig. 1 provides for the embodiment of the present application；

The stereogram for the hot-wire coil that Fig. 2 provides for the embodiment of the present application；

Hot-wire coil and the scheme of installation II of magnetic conductor that Fig. 3 provides for the embodiment of the present application；

The stereogram for the magnetic conductor that Fig. 4 provides for the embodiment of the present application；

The schematic diagram of the part-structure for the linear vibration electric motor that Fig. 5 provides for the embodiment of the present application；

The isometric exploded view for the linear vibration electric motor that Fig. 6 provides for the embodiment of the present application.

Accompanying drawing herein is merged in specification and constitutes the part of this specification, shows the implementation for meeting the application Example, and be used to together with specification to explain the principle of the application.

Embodiment

The application is described in further detail below by specific embodiment and with reference to accompanying drawing.

As shown in figures 1 to 6, the linear vibration electric motor includes cover plate 1 and shell 4, and shell 4 covers to form collecting with cover plate 1 Chamber.Linear vibration electric motor also includes fixation kit, vibration component and the Flexible Connector 5 being contained in host cavity.

Fixation kit is the component that position opposite shell 4 will not change.In the present embodiment, the fixation kit is substantially It is upper to include hot-wire coil 2, circuit board 3 and magnetic conductor 8 etc..Circuit board 3 is fixedly connected on cover plate 1.Referring to Fig. 1-3, this leads to Electric coil 2 is cyclic structure, and its middle part has accommodating hole 21, and magnetic conductor 8 is arranged in the accommodating hole 21 of hot-wire coil 2.This leads to Electric coil 2 also includes the first lead-out wire 21 and the second lead-out wire 22, the first lead-out wire 21 and the second lead-out wire 22 with circuit board 3 Electrical connection, so as to realize the transmission of electric signal.

Vibration component is the component that position opposite shell 4 changes, and it can be carried out linearly under the driving of hot-wire coil 2 Vibration (X-direction shown in Fig. 5 is the direction of vibration of the present embodiment).As seen in figs. 5-6, the vibration component generally includes quality Block 6 and magnetic steel component 7.Wherein, mounting hole 61 is offered on mass 6, and magnetic steel component 7 is installed in mounting hole 61.Magnetic Steel component 7 includes the first magnet steel 71 and the second magnet steel 72, the direction of vibration of the first magnet steel 71 and the second magnet steel 72 along vibration component It is intervally installed.In the present embodiment, the hot-wire coil 2 is also housed by mounting hole 61, and positioned in the He of the first magnet steel 71 Between second magnet steel 72.Direction of vibration of the end face of the hot-wire coil 2 perpendicular to vibration component.

Flexible Connector 5 clamps mass 6 so that vibration component is suspended in host cavity.In the present embodiment, the elasticity The quantity of connector 5 is two, and two Flexible Connectors 5 are separately positioned on both sides of the vibration component along its direction of vibration.

The concrete structure and its assembly relation of magnetic conductor 8 and hot-wire coil 2 are as Figure 1-4.In the present embodiment, this is led Magnet 8 generally includes the abutting part 82 being connected on the end face of hot-wire coil 2 and outside accommodating hole 21, and is plugged in The insertion section 83 being connected in accommodating hole 21 and with the abutting part 82.When accommodating hole 21 is inserted in insertion section 83, abutting part 82 is with inserting The composition surface and the end face of hot-wire coil 2 for entering portion 83 fit.In the present embodiment, the shape of the insertion section 83 and accommodating hole 21 Shape be adapted.Preferably, gap coordinates between the insertion section 83 and accommodating hole 21.

Further as shown in figure 4, in the present embodiment, also set up relief portion 81 on the magnetic conductor 8, and the relief portion 81 from Composition surface is recessed to be formed along the direction away from hot-wire coil 2.When magnetic conductor 8 and hot-wire coil 2 are assembled, the first lead-out wire 22 with Second lead-out wire 23 is located in the relief portion 81, so as to provide avoidance for the first lead-out wire 22 and the second lead-out wire 23, reduction by the The risk that one lead-out wire 22 and the second lead-out wire 23 are weighed wounded or broken.

In the embodiment shown in fig. 4, the relief portion 81 generally includes two escape groove, i.e., first shown in Fig. 4 is kept away Allow groove 81a and the second escape groove 81b, and the first escape groove 81a and the second escape groove 81b are spaced apart.Wherein, the first lead-out wire 22 are individually contained in the first escape groove 81a, and the second lead-out wire 23 is individually contained in the second escape groove 81b.Therefore, first The lead-out wire 23 of lead-out wire 22 and second can be respectively received in different escape groove, on the one hand can be the first lead-out wire 22 and second Lead-out wire 23 provides avoidance, on the other hand can avoid being short-circuited between the two.

In the present embodiment, the first escape groove 81a and the second escape groove 81b is adjacent each other by cut-off portion (non-label) Connect.However, in other embodiments, the axle that the first escape groove 81a and the second escape groove 81b can also be on hot-wire coils 2 The heart is centrosymmetric structure.In addition, in other embodiments, the first escape groove 81a and the second escape groove 81b can also be on The axis of the accommodating hole of hot-wire coil 2 is in symmetrical structure.

Further as shown in Figure 4, it is preferable that the relief portion also includes the 3rd escape groove 81c and the 4th escape groove 81d.Its In, the 3rd escape groove 81c is abutted and is spaced apart with the second escape groove 81b, and the 3rd escape groove 81c and the first escape groove 81a Axle center on hot-wire coil 2 is centrosymmetric structure.And the 4th escape groove 81d and the first escape groove 81a adjoining and each other every Open, and the 4th escape groove 81d and the second escape groove 81b is centrosymmetric structure on the axle center of hot-wire coil 2.There to be this kind When the magnetic conductor 8 of structure is arranged on hot-wire coil 2, its installation difficulty can be reduced, and which thereby enhance efficiency of assembling.

In the embodiment shown in fig. 3, the linear vibration electric motor includes two magnetic conductors 8, and two magnetic conductors 8 are respectively the One magnetic conductor 8a and the second magnetic conductor 8b.Wherein, the first magnetic conductor 8a abutting part and the second magnetic conductor 8b abutting part difference It is connected in the relative both ends of the surface of hot-wire coil, and the first magnetic conductor 8a insertion section and the second magnetic conductor 8b insertion section are at this Mutually abutted in the accommodating hole 21 of hot-wire coil 2.

In the embodiment shown in fig. 4, the magnetic conductor 8 be T-shaped iron core and centered on symmetrical structure.Wherein, abutting part 82 It is square with the cross section of insertion section 83.However, in other embodiments, the abutting part 82 can also it is in the form of a circular plate or its His irregular shape.Similarly, insertion section 83 can also be according to the structure setting of accommodating hole 21 into cylindric etc., and the application is herein The shape of cross section of abutting part 82 and insertion section 83 to the magnetic conductor is not construed as limiting.

Linear vibration electric motor of the present utility model is set by the way that magnetic conductor is arranged on hot-wire coil on magnetic conductor Put the relief portion avoided for the first lead-out wire and the second lead-out wire of hot-wire coil, it is to avoid first lead-out wire and second draw The interference of line and magnetic conductor, reduces the risk that the first lead-out wire and the second lead-out wire are pressed down.

The preferred embodiment of the application is the foregoing is only, the application is not limited to, for the skill of this area For art personnel, the application can have various modifications and variations.It is all within spirit herein and principle, made any repair Change, equivalent, improvement etc., should be included within the protection domain of the application.

Claims (7)

1. a kind of linear vibration electric motor, including shell and the shell cover the cover plate to form host cavity, and are contained in described Fixation kit, vibration component and Flexible Connector in host cavity；The Flexible Connector be connected with the vibration component and The vibration component is suspended in the host cavity；The vibration component includes magnetic steel component；The fixation kit includes tool There is the hot-wire coil of the first lead-out wire and the second lead-out wire；Characterized in that, the fixation kit also includes being arranged on described logical Magnetic conductor on electric coil；The magnetic conductor has relief portion, and first lead-out wire is located at described with second lead-out wire In relief portion.

2. linear vibration electric motor according to claim 1, it is characterised in that the relief portion includes the first escape groove and the Two escape groove, and first escape groove and second escape groove be spaced apart；First lead-out wire is located at described first In escape groove, and second lead-out wire is located in second escape groove.

3. linear vibration electric motor according to claim 2, it is characterised in that the relief portion also include the 3rd escape groove and 4th escape groove；3rd escape groove is abutted and is spaced apart with second escape groove, and the 3rd escape groove and institute The first escape groove is stated to be centrosymmetric structure on the axle center of the hot-wire coil；4th escape groove is adjacent with the first escape groove Connect and be spaced apart, and the 4th escape groove is centrosymmetric with second escape groove on the axle center of the hot-wire coil Structure.

4. linear vibration electric motor according to claim 1, it is characterised in that the hot-wire coil has accommodating hole；It is described Magnetic conductor includes the insertion section inserted inside the accommodating hole, and is connected and is located at outside the accommodating hole with the insertion section Abutting part；The abutting part and the composition surface of the insertion section are connected on the end face of the hot-wire coil；The relief portion It is recessed to be formed from the composition surface along the direction away from the hot-wire coil.

5. linear vibration electric motor according to claim 4, it is characterised in that the linear vibration electric motor is included described in two Magnetic conductor, and the abutting part of two magnetic conductors is connected in the relative both ends of the surface of the hot-wire coil respectively.

6. linear vibration electric motor according to claim 5, it is characterised in that the insertion section of two magnetic conductors is described Mutually abutted in accommodating hole.

7. linear vibration electric motor according to claim 1, it is characterised in that the vibration component also includes mass；Institute Mass described in Flexible Connector resilient clamp is stated so that the vibration component is suspended；Mounting hole is offered on the mass； The magnetic steel component includes being respectively accommodated in the mounting hole and being intervally installed along the direction of vibration of the vibration component The first magnet steel and the second magnet steel；

The hot-wire coil be located between first magnet steel and second magnet steel, and the hot-wire coil end face perpendicular to The direction of vibration of the vibration component.