CN204103679U - Vibrating motor - Google Patents

Abstract

The utility model provides a kind of vibrating motor, involving vibrations motor body and motor housing.Described motor housing has the FPC derivation otch of deriving FPC, and from the motor embedding otch that FPC derivation otch extends to eccentric hammer side; Vibrating motor main body is embedded into motor housing by this motor embedding otch.By the utility model, the vibration due to motor or the impact from outside can not only be prevented and the problem of FPC broken string that causes, and can easily vibrating motor main body be embedded in motor housing.

Description

Vibrating motor

Technical field

The utility model relates to electro-mechanical arts, particularly relates to a kind of vibrating motor.

Background technology

In the assembling procedure of electronic equipment such as mobile phone, there is the motor accommodating vibration generating arrangement at the through hole place of cover.Wherein, the gap of cover can be made to expand, from this gap to the inside of through hole press-in motor.Subsequently, bracket is pressed into the shell accommodating chamber be formed in shell.Thus, the inner peripheral surface of cover press against on the outer peripheral face of motor, and such motor is fixed.

In addition, the rear end face of motor is connected with the couple of conductor for supplying drive current, and when holding motor at the through hole place of cover, the anglec of rotation posture of the motor in cover is adjusted to the direction making couple of conductor towards regulation.Therefore, couple of conductor and miscellaneous part do not interfere, and may extend into the position of socket.

List of references 1: Japanese Unexamined Patent Publication 2001-62399

Above it should be noted that, just conveniently to the technical solution of the utility model, clear, complete explanation is carried out to the introduction of technical background, and facilitate the understanding of those skilled in the art to set forth.Only can not think that technique scheme is conventionally known to one of skill in the art because these schemes have carried out setting forth in background technology part of the present utility model.

Utility model content

But inventor finds: in current motor (such as vibrating motor), can pass through flexible printed circuit board (FPC, Flexible Printed Circuit) by vibrating motor and turned on outside; But in this case, the vibration due to motor or the impact from outside, easily there is the problem broken in flexible printed circuit board.

The utility model proposed in view of above technical problem, provides a kind of vibrating motor, comprises the motor housing being provided with lead fixing structure.By structure of the present utility model, motor housing can be made at least to cover a part of FPC and protect FPC, the vibration due to motor or the impact from outside can be prevented and the problem of FPC broken string that causes.

According to first aspect of the present utility model, provide a kind of vibrating motor, involving vibrations motor body and motor housing; One end of described vibrating motor main body has eccentric hammer, at the other end contrary with described eccentric hammer, there is motor terminal, described motor terminal is electrically connected with flexible printed circuit board, described flexible printed circuit board along described vibrating motor main body first surface, be exported towards the direction vertical with the axis of described vibrating motor main body; Described motor housing has elasticity and coated described vibrating motor main body;

Described motor housing has the flexible printed circuit board derivation otch of deriving described flexible printed circuit board, and described flexible printed circuit board derivation otch is greater than the width of derivation place of described flexible printed circuit board along the width of the axial direction of described vibrating motor main body;

Described motor housing has the first motor embedding otch that the side from described flexible printed circuit board derivation otch to described eccentric hammer extends, and described vibrating motor main body is embedded into described motor housing by described first motor embedding otch.

According to second aspect of the present utility model, wherein, described first motor embedding otch is positioned at second surface contrary with described first surface on described motor housing.

According to the 3rd aspect of the present utility model, wherein, described flexible printed circuit board is secured at the described first surface of described vibrating motor main body by alite paste or two-sided tape.

According to the 4th aspect of the present utility model, wherein, described flexible printed circuit board has the conducting portion with equipment side conducting, described conducting portion metal clad plate;

Described metallic plate and described flexible printed circuit board are provided with multiple through hole.

According to the 5th aspect of the present utility model, wherein, the described second surface of described motor housing also has the second motor embedding otch that the side from described flexible printed circuit board derivation otch to described motor terminal extends.

According to the 6th aspect of the present utility model, wherein, described second motor embedding otch is not communicated with the end face at described motor terminal place.

According to the 7th aspect of the present utility model, wherein, described flexible printed circuit board derivation otch, in the circumferential direction along described vibrating motor main body, extends to the side contrary with the surface of deriving described flexible printed circuit board.

According to the 8th aspect of the present utility model, wherein, described motor housing is in the not coated described vibrating motor main body of the end face at described motor terminal place.

According to the 9th aspect of the present utility model, wherein, described motor housing also has protuberance, and described protuberance is arranged at the surface contrary with the surface of deriving described flexible printed board circuit.

The beneficial effects of the utility model are: by structure of the present utility model, make motor housing at least cover a part of FPC and protect FPC; The vibration due to motor or the impact from outside can not only be prevented and the problem of FPC broken string that causes, and can easily vibrating motor main body be embedded in motor housing.

With reference to explanation hereinafter and accompanying drawing, disclose in detail particular implementation of the present utility model, specifying principle of the present utility model can adopted mode.Should be appreciated that, thus execution mode of the present utility model is not restricted in scope.In the spirit of claims and the scope of clause, execution mode of the present utility model comprises many changes, amendment and is equal to.

The feature described for a kind of execution mode and/or illustrate can use in one or more other execution mode in same or similar mode, combined with the feature in other execution mode, or substitutes the feature in other execution mode.

Should emphasize, term " comprises/comprises " existence referring to feature, one integral piece or assembly when using herein, but does not get rid of the existence or additional of one or more further feature, one integral piece or assembly.

Accompanying drawing explanation

Included accompanying drawing is used to provide further understanding of the present utility model, which constitute a part for specification, exemplified with preferred implementation of the present utility model, and be used for explaining principle of the present utility model together with explanatory note, wherein for identical key element, represent with identical Reference numeral all the time.

In the accompanying drawings:

Fig. 1 is a schematic diagram of vibrating motor of the present utility model;

Fig. 2 is a schematic diagram of vibrating motor main body of the present utility model;

Fig. 3 is another schematic diagram of the vibrating motor main body shown in Fig. 2;

Fig. 4 is another schematic diagram of the vibrating motor main body shown in Fig. 2;

Fig. 5 is another schematic diagram of the vibrating motor main body shown in Fig. 2;

Fig. 6 is another schematic diagram of the vibrating motor main body shown in Fig. 2;

Fig. 7 is another schematic diagram of the vibrating motor main body shown in Fig. 2;

Fig. 8 is another schematic diagram of the vibrating motor main body shown in Fig. 2;

Fig. 9 is another schematic diagram of the vibrating motor shown in Fig. 1;

Figure 10 is another schematic diagram of the vibrating motor shown in Fig. 1;

Figure 11 is another schematic diagram of the vibrating motor shown in Fig. 1;

Figure 12 is a schematic diagram of another vibrating motor of the present utility model;

Figure 13 is another schematic diagram of the vibrating motor shown in Figure 12;

Figure 14 is a schematic diagram of another vibrating motor of the present utility model;

Figure 15 is a schematic diagram of another vibrating motor of the present utility model;

Figure 16 is another schematic diagram of the vibrating motor shown in Figure 15;

Figure 17 is a schematic diagram of another vibrating motor of the present utility model;

Figure 18 is a schematic diagram of another vibrating motor of the present utility model;

Figure 19 is another schematic diagram of the vibrating motor shown in Figure 18.

Embodiment

With reference to accompanying drawing, by specification below, aforementioned and further feature of the present utility model will become obvious.In the specification and illustrated in the drawings, specifically disclose particular implementation of the present utility model, which show the some embodiments that wherein can adopt principle of the present utility model, will be appreciated that, the utility model is not limited to described execution mode, on the contrary, the utility model comprises the whole amendments fallen in the scope of claims, modification and equivalent.

In addition, in this manual, the direction parallel with the axle AA ' of the vibrating motor 100 shown in Fig. 1 is called " axis " or " axial direction ", by the circumferencial direction centered by the axle of vibrating motor 100 referred to as " circumference " or " circumferential direction ", by the radial direction centered by the axle of vibrating motor 100 referred to as " radial direction " or " radial direction ".It should be noted that all directions are defined just in order to convenience of the present utility model is described in this specification, do not represent the direction of vibrating motor when being assembled into actual equipment.

The present embodiment provides a kind of vibrating motor.Fig. 1 is a schematic diagram of vibrating motor of the present utility model.As shown in Figure 1, this vibrating motor 100 involving vibrations motor body 101 and motor housing 102, vibrating motor main body 101 is connected with flexible printed circuit board (FPC) 103.Motor housing 102 has elasticity and coated described vibrating motor main body 101.

Fig. 2 is a schematic diagram of vibrating motor main body of the present utility model, as shown in Figure 2, one end of described vibrating motor main body 101 has eccentric hammer 1011, at the other end contrary with described eccentric hammer 1011, there is motor terminal 1012, described motor terminal 1012 is connected with FPC 103, FPC 103 is along the first surface (lower surface of the vibrating motor main body 101 namely shown in Fig. 2) 104 of described vibrating motor main body 101, be exported towards the direction vertical with the axis of described vibrating motor main body 101 (namely AA ' direction) as shown in Figure 2 (namely BB ' direction) as shown in Figure 2.

Fig. 3 is another schematic diagram of the vibrating motor main body shown in Fig. 2, shows the situation that FPC 103 is connected with motor terminal 1012.Fig. 4 is another schematic diagram of the vibrating motor main body shown in Fig. 2, shows FPC 103 along the lower surface 104 of vibrating motor main body 101, laterally to the situation that the outside of vibrating motor main body 101 is drawn; As shown in Figure 4, FPC 103 is roughly laterally exported in " it " font and at the lower surface 104 of vibrating motor main body 101.But the utility model is not limited thereto, such as FPC can also have other shape.

Fig. 5 is another schematic diagram of the vibrating motor main body shown in Fig. 2, shows the situation that FPC1013 is connected with motor terminal 1012 from motor terminal 1012 side.Fig. 6 is another schematic diagram of the vibrating motor main body shown in Fig. 2, shows the situation of FPC 103 and vibrating motor main body 101 from the side.

In the utility model, FPC 103 can be secured at the lower surface of described vibrating motor main body 101 by alite paste or two-sided tape etc.But the utility model is not limited thereto, such as, can also adopt other laminating type.By FPC and vibrating motor main body are fixed, be not easy when assembling motor housing to damage FPC; Meanwhile, due to the protection of motor housing 102, the vibration due to motor or the impact from outside can be prevented further and the problem of FPC broken string that causes.

In the utility model, FPC can also have the conducting portion with equipment side conducting, described conducting portion metal clad plate; Described metallic plate and FPC are provided with multiple through hole.Wherein, the equipment in the utility model can be the terminal equipments such as mobile phone, but is not limited thereto, such as, can also be the electronic equipment of other any use vibrating motors.

Fig. 7 is another schematic diagram of the vibrating motor main body shown in Fig. 2, shows the situation of carrying out from the below (first surface side) of vibrating motor main body 101 observing.Fig. 8 is another schematic diagram of the vibrating motor main body shown in Fig. 2, shows the situation of carrying out from the top (side contrary with first surface side) of vibrating motor main body 101 observing.

As shown in FIG. 7 and 8, FPC 103 has conducting portion 701, wherein conducting portion 701 metal clad plate 7011; Further, metallic plate 7011 and FPC 103 are provided with multiple through hole 7012.Thus, easily FPC and equipment (such as mobile phone etc.) can be positioned or fix.Particularly, can have protruded terminal at the installation side of equipment, this protruded terminal embeds in through hole 7012, can position and fix thus; Or screw can be screwed in through hole 7012, FPC is fixed to equipment.

Above embodiment is illustrated vibrating motor main body 101 and FPC 103, is described in detail below for motor housing 102.

As shown in Figure 1, the coated described vibrating motor main body 101 of motor housing 102, described motor housing 102 has derives the FPC derivation otch 1021 of FPC 103, and described FPC derivation otch 1021 is greater than the width (width L2 as shown in Figure 1) of derivation place 1022 of FPC 103 along the width (width L1 as shown in Figure 1) of the axial direction of described vibrating motor main body 101.By such design, when vibrating motor main body 101 is installed to motor housing 102, more easily FPC is drawn, prevent the generation of FPC broken string in an assembling process.

Fig. 9 is another schematic diagram of the vibrating motor shown in Fig. 1, shows and carries out the situation of observing from the lower side of vibrating motor 100.As illustrated in figs 1 and 9, described motor housing 102 at least covers the part of the FPC 103 being configured in vibrating motor main body 101 lower surface, and motor housing 102 can have elasticity.Thus, cover a part of FPC by motor housing and can protect FPC, the vibration due to motor or the impact from outside can be prevented and the problem of FPC broken string that causes.

In the utility model, as shown in Figure 1, described motor housing 102 also has the first motor embedding otch 1023 extended to described eccentric hammer 1011 side from described FPC derivation otch 1021, and described vibrating motor main body 101 is embedded into described motor housing 102 by described first motor embedding otch 1023.By the first motor embedding otch 1023 being arranged on towards on the direction of eccentric hammer 1011 side extension, the closeness of contact of motor housing 102 and FPC contact portion can be ensured, thus the problem of the FPC broken string that can prevent the vibration due to motor or the impact from outside better and cause.

Figure 10 is another schematic diagram of the vibrating motor shown in Fig. 1, shows the situation of carrying out from the top of vibrating motor 100 observing.Figure 11 is another schematic diagram of the vibrating motor shown in Fig. 1, shows and carries out the situation of observing from another angle; As shown in figure 11, motor housing 102 can the motor terminal side of coated vibrating motor main body 101, can protect the joint portion of FPC and motor terminal thus better.

Shown in Figure 10 and 11, described first motor embedding otch 1023 can be positioned at the second surface (namely contrary with the lower surface 104 shown in Fig. 4 upper surface) of described motor housing 102.But the utility model is not limited thereto, the first motor embedding otch 1023 can also be positioned at other positions.

In the utility model, motor housing has elasticity, and described FPC derivation otch 1021 is greater than the width of described FPC 103 along the width of the axial direction of described vibrating motor main body 101.Therefore, by above-mentioned first motor embedding otch 1023, can with comparalive ease vibrating motor main body 101 be embedded in motor housing 102.

In the utility model, motor housing can also have the second motor embedding otch extended to described motor terminal side from FPC derivation otch.By arranging the second motor embedding otch, can more easily vibrating motor main body 101 be embedded in motor housing 102.

Figure 12 is a schematic diagram of another vibrating motor of the present utility model.As shown in figure 12, vibrating motor 200 involving vibrations motor body 101 and motor housing 202; Wherein, vibrating motor main body 101 and FPC 103 are as previously mentioned.

As shown in figure 12, motor housing 202 has FPC derivation otch 2021, and from the first motor embedding otch 2023 that described FPC derivation otch 2021 extends to described eccentric hammer 1011 side; The upper surface of this external motor housing 202 also has the second motor embedding otch 2024 extended to motor terminal side from described FPC derivation otch 2021.

Thus, by above-mentioned first motor embedding otch 2023 and the second motor embedding otch 2024, can more easily vibrating motor main body 101 be embedded in motor housing 202.It should be noted that Figure 12 shows and has the first motor embedding otch 2023 and the second motor embedding otch 2024 at the upper surface of motor housing 202; But the utility model is not limited thereto, such as, the first motor embedding otch 2023 and the second motor embedding otch 2024 can also be separately positioned on the different surface of motor housing 202.

Figure 13 is another schematic diagram of the vibrating motor shown in Figure 12, shows the situation of this vibrating motor from another angle.As shown in figure 13, described second motor embedding otch 2024 is not communicated with the end face 2025 at motor terminal place.Thus, can also ensure that motor housing has more stable structure, the vibration due to motor or the impact from outside can be prevented and the problem of FPC broken string that causes.But the utility model is not limited thereto, such as the second motor embedding otch 2024 also can arrive the end face 2025 at motor terminal place.

In the utility model, FPC derivation otch in the circumferential direction along described vibrating motor main body, can also extend to the side contrary with the surface of the side of deriving FPC.

Figure 14 is a schematic diagram of another vibrating motor of the present utility model.As shown in figure 14, vibrating motor 300 involving vibrations motor body 101 and motor housing 302; Wherein, vibrating motor main body 101 and FPC 103 are as previously mentioned.

As shown in figure 14, motor housing 302 has FPC derivation otch 3021, this FPC derivation otch 3021, in the circumferential direction along described vibrating motor main body 101, extends to the side (side of side 1402 as shown in figure 14) contrary with the surface (side 1401 as shown in figure 14) of the side of deriving FPC.Thus, the aperture area of motor housing 302 can be increased, thus vibrating motor main body 101 is embedded in motor housing 302 by the ground that can be more prone to.

As shown in figure 14, the upper surface of motor housing 302 can also have the first motor embedding otch 3023 and the second motor embedding otch 3024.But the utility model is not limited thereto, such as motor housing 302 can not also have the second motor embedding otch 3024; First motor embedding otch 3023 also can be arranged on other positions.

In the utility model, motor housing can also have protuberance, and described protuberance can be arranged at the surface contrary with the surface of deriving described FPC.

Figure 15 is a schematic diagram of another vibrating motor of the present utility model.Figure 16 is another schematic diagram of the vibrating motor shown in Figure 15, shows the situation of protuberance from another angle.As shown in figs, vibrating motor 400 involving vibrations motor body 101 and motor housing 402; Wherein, vibrating motor main body 101 and FPC 103 are as previously mentioned.

As shown in figs, described motor housing 402 also has protuberance 1501, and described protuberance 1501 is arranged at the surface (side 1503 as shown in figure 15) contrary with the surface of the side of deriving FPC (side 1502 as shown in figure 15).

Thus, when vibrating motor is assembled into equipment, this protuberance may be used for location; Such as, vibrating motor can be fixed by this protuberance of clamping.Further, this protuberance also can have multiple, and the utility model does not limit this.

In addition, as shown in figure 16, motor housing 402 has FPC derivation otch 4021, and the upper surface of motor housing 402 also has the first motor embedding otch 4023 and the second motor embedding otch 4024 in addition.But the utility model is not limited thereto, such as motor housing 402 can not also have the second motor embedding otch 4024; Or, the first motor embedding otch 4023 and the second motor embedding otch 4024 can also be separately positioned on the different surface of motor housing 402; Or, the FPC derivation otch 4021 of motor housing 402 can also be extended to side 1503.

In the utility model, the end face of motor housing at motor terminal place can not also coated vibrating motor main body.

Figure 17 is a schematic diagram of another vibrating motor of the present utility model.As shown in figure 17, vibrating motor 500 involving vibrations motor body 101 and motor housing 502; Wherein, vibrating motor main body 101 and FPC 103 are as previously mentioned.

As shown in figure 17, in this vibrating motor 500, described motor housing 502 is in the not coated described vibrating motor main body 101 of the end face 1701 at motor terminal 1012 place.Thus, increase the aperture area of motor housing 502, thus can more easily vibrating motor main body 101 be embedded in motor housing 502.

In addition, as shown in figure 17, motor housing 502 has FPC derivation otch 5021, and the upper surface of motor housing 502 also has the first motor embedding otch 5023 and the second motor embedding otch 5024 in addition.But the utility model is not limited thereto, such as motor housing 502 can not also have the second motor embedding otch 5024; Or, the first motor embedding otch 5023 and the second motor embedding otch 5024 can also be separately positioned on the different surface of motor housing 502; Or, the FPC derivation otch 5021 of motor housing 502 can also be extended to opposite side.

In addition, in the motor housing 502 shown in Figure 17, the situation that the second motor embedding otch 5024 is communicated with end face 1701 is shown.But the utility model is not limited thereto, the second motor embedding otch 5024 can not be communicated with end face 1701; Can ensure that motor housing has more stable structure thus, prevent the vibration due to motor or the impact from outside further and the problem of FPC broken string that causes.

Show situation about FPC derivation otch and the first motor embedding otch being provided separately in the above-described embodiments, but the utility model is not limited thereto.Such as FPC derivation otch and the first motor embedding otch can also be merged and be set to an otch.

Figure 18 is a schematic diagram of another vibrating motor of the present utility model.As shown in figure 18, vibrating motor 600 involving vibrations motor body 101 and motor housing 602; Wherein, vibrating motor main body 101 and FPC 103 are as previously mentioned.

As shown in figure 18, motor housing 602 has the otch 1801 extended to eccentric hammer 1011 side from the derivation of FPC 103; FPC 103 can be derived by this otch 1801, and vibrating motor main body 101 can be embedded in motor housing 602.Namely otch 1801 can realize the function of aforesaid FPC derivation otch and the first motor embedding otch.

Figure 19 is another schematic diagram of the vibrating motor shown in Figure 18, shows the situation of vibrating motor 600 from another angle.As shown in figure 19, by using, there is the motor housing 602 of otch 1801, can as often as possible coated vibrating motor main body 101; Can ensure that motor housing has more stable structure thus, prevent the vibration due to motor or the impact from outside further and the problem of FPC broken string that causes.

According to above-described embodiment, make motor housing at least cover a part of FPC to protect FPC, the vibration due to motor or the impact from outside can be prevented and the problem of FPC broken string that causes.

In addition, can also adjust the structure of motor housing, second motor embedding otch is such as set, or FPC derivation otch is extended to the side contrary with the surface of the side of deriving FPC in the circumferential direction along vibrating motor main body, or the not coated vibrating motor main body of the end face of motor housing at motor terminal place.The aperture area of motor housing can be made to increase by these structures, thus operation vibrating motor main body being embedded into motor cover is more prone to.In addition, the application of through hole and protuberance can make the location of vibrating motor and fix more simple.

It should be noted that the adjustment of the above-mentioned structure for motor housing, can use respectively wherein any one, also can adopt these adjustment in combinations several arbitrarily.The utility model does not limit this, can determine the structure of concrete motor housing according to actual needs.

More than being described the utility model in conjunction with concrete execution mode, but it will be apparent to those skilled in the art that these descriptions are all exemplary, is not the restriction to the utility model protection range.Those skilled in the art can make various variants and modifications according to spirit of the present utility model and principle to the utility model, and these variants and modifications are also in scope of the present utility model.

More than describe preferred implementation of the present utility model with reference to the accompanying drawings.Many feature and advantage of these execution modes are clearly according to this detailed description book, and therefore claims are intended to all these feature and advantage fallen in its true spirit and scope covering these execution modes.In addition, owing to those skilled in the art will find apparent that a lot of amendment and changing, therefore not execution mode of the present utility model to be limited to precision architecture that is illustrated and that describe and operation, but can contain and fall into all suitable modifications within the scope of it and equivalent.

Claims (9)

1. a vibrating motor, involving vibrations motor body and motor housing; One end of described vibrating motor main body has eccentric hammer, at the other end contrary with described eccentric hammer, there is motor terminal, described motor terminal is electrically connected with flexible printed circuit board, described flexible printed circuit board along described vibrating motor main body first surface, be exported towards the direction vertical with the axis of described vibrating motor main body; Described motor housing has elasticity and coated described vibrating motor main body;

It is characterized in that,

Described motor housing has the flexible printed circuit board derivation otch of deriving described flexible printed circuit board, and described flexible printed circuit board derivation otch is greater than the width of derivation place of described flexible printed circuit board along the width of the axial direction of described vibrating motor main body;

Described motor housing has the first motor embedding otch that the side from described flexible printed circuit board derivation otch to described eccentric hammer extends, and described vibrating motor main body is embedded into described motor housing by described first motor embedding otch.

2. vibrating motor according to claim 1, wherein, described first motor embedding otch is positioned at second surface contrary with described first surface on described motor housing.

3. vibrating motor according to claim 2, wherein, described flexible printed circuit board is secured at the described first surface of described vibrating motor main body by alite paste or two-sided tape.

4. vibrating motor according to claim 1, wherein, described flexible printed circuit board has the conducting portion with equipment side conducting, described conducting portion metal clad plate;

Described metallic plate and described flexible printed circuit board are provided with multiple through hole.

5. vibrating motor according to claim 2, wherein, the described second surface of described motor housing also has the second motor embedding otch that the side from described flexible printed circuit board derivation otch to described motor terminal extends.

6. vibrating motor according to claim 5, wherein, described second motor embedding otch is not communicated with the end face at described motor terminal place.

7. the vibrating motor according to any one of claim 1 to 6, wherein, described flexible printed circuit board derivation otch, in the circumferential direction along described vibrating motor main body, extends to the side contrary with the surface of deriving described flexible printed circuit board.

8. the vibrating motor according to any one of claim 1 to 6, wherein, described motor housing is in the not coated described vibrating motor main body of the end face at described motor terminal place.

9. the vibrating motor according to any one of claim 1 to 6, wherein, described motor housing also has protuberance, and described protuberance is arranged at the surface contrary with the surface of deriving described flexible printed board circuit.