CN104820329A - Camera motor and electronic device - Google Patents

Abstract

The invention discloses a camera motor and an electronic device. The camera motor comprises a lens assembly, a coil group, a support, a coil skeleton assembly and a base. The coil group comprises an optical image stabilizer coil and an automatic focusing coil. The lens assembly is connected with the coil group; the coil group is arranged in the support; the support is arranged in the coil skeleton assembly; and the coil skeleton assembly is arranged in the base. Through changing the installation sequence of the coil skeleton assembly and the coil group, push power needed by the coil group is reduced, so that the size of the coils can be reduced, the size of the camera motor is reduced, the overall weight of the device provided with the camera motor is reduced, user experience during the use process is improved, and the purposes of the camera motor and the electronic device are realized.

Description

A kind of camera motor and electronic equipment

Technical field

The present invention relates to technical field of mechanical design, particularly a kind of camera motor and electronic equipment.

Background technology

At present, in the camera motor of the mobile devices such as mobile phone, usually need first to arrange coil former relative to lens assembly to be first arranged in support, to be placed in stabilization coil and focusing coil with propping up of this coil former again, thus, the power that stabilization coil is produced needs to promote camera lens and coil former part, therefore, need the magnetic coil doing large stabilization members, but, when doing the magnetic coil of large stabilization members, not only cause the volume of overall camera motor larger, increase the overall weight that the equipment of this camera motor is set simultaneously, affect user's experience in use.

Summary of the invention

The object of the invention is to, a kind of camera motor and electronic equipment are provided, comparatively large in order to the volume solving camera motor in prior art, increase Whole Equipment weight simultaneously, affect the technical matters of user's experience in use.

The invention provides a kind of camera motor, comprising:

Lens assembly, coil groups, support, coil former and base, described coil groups comprises optical image stabilizer coil and auto-focusing coil;

Wherein, described lens assembly is connected with described coil groups, and described coil groups is arranged in described support, and described Bracket setting is in described coil former, and described coil former is arranged in described base.

Above-mentioned camera motor, preferably, in described coil groups, described optical image stabilizer coil is arranged near described lens assembly, and described auto-focusing coil is near described Bracket setting.

Above-mentioned camera motor, preferably, also comprises:

Elastomeric element, the first end of described elastomeric element is connected with described lens assembly, and the second end of described elastomeric element is connected with described coil groups;

Wherein, before described camera motor is activated, described elastomeric element is in the first elastic stage.

Above-mentioned camera motor, preferably, described elastomeric element comprises spring.

Above-mentioned camera motor, preferably, also comprises:

Elastic stage arranges structure, before being activated at described camera motor, arranges the elastic stage of described elastomeric element.

Above-mentioned camera motor, preferably, described first elastic stage is compressive state or extended state.

Present invention also offers a kind of electronic equipment, described electronic equipment comprises camera motor;

Wherein, described camera motor comprises:

Lens assembly, coil groups, support, coil former and base, described coil groups comprises optical image stabilizer coil and auto-focusing coil;

Wherein, described lens assembly is connected with described coil groups, and described coil groups is arranged in described support, and described Bracket setting is in described coil former, and described coil former is arranged in described base.

Above-mentioned electronic equipment, preferred:

In described coil groups, described optical image stabilizer coil is arranged near described lens assembly, and described auto-focusing coil is near described Bracket setting.

Above-mentioned electronic equipment, preferably, described camera motor also comprises:

Elastomeric element, the first end of described elastomeric element is connected with described lens assembly, and the second end of described elastomeric element is connected with described coil groups;

Wherein, before described camera motor is activated, described elastomeric element is in the first elastic stage.

Above-mentioned electronic equipment, preferably, described camera motor also comprises:

Elastic stage arranges structure, before being activated at described camera motor, arranges the elastic stage of described elastomeric element.

From such scheme, a kind of camera motor provided by the invention and electronic equipment, by exchanging the erection sequence of coil former and coil groups, that is, lens assembly in camera motor is connected with necklace group, coil groups is arranged in support, and Bracket setting is in coil former, again coil former is arranged in the base, thus the required power promoted of minimizing coil groups, winding volume can be reduced thus, and then reduce the volume of camera motor and the overall weight of equipment of this camera motor is set, improve user's experience in use, realize the object of the invention.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments of the invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

Fig. 1 is the structural representation of a kind of camera motor embodiment one provided by the invention;

Fig. 2 is the structural representation of a kind of camera motor embodiment two provided by the invention;

Fig. 3 is the structural representation of a kind of camera motor embodiment three provided by the invention;

Fig. 4 is another structural representation of the embodiment of the present invention;

Fig. 5 is the structural representation of a kind of electronic equipment embodiment four provided by the invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

With reference to figure 1, be the structural representation of a kind of camera motor embodiment one provided by the invention, wherein, in the present embodiment, described camera motor can be arranged on mobile phone, pad, single anti-etc. to have in the equipment of camera function.

In the present embodiment, described camera motor can include with lower component:

Lens assembly 1, coil groups 2, support 3, coil former 4 and base 5, described coil groups 2 comprises optical image stabilizer coil 6 and auto-focusing coil 7;

Wherein, described lens assembly 1 is connected with described coil groups 2, and described coil groups 2 is arranged in described support 3, and described support 3 is arranged in described coil former 4, and described coil former 4 is arranged in described base 5.

It should be noted that, the lens assembly 1 in the present embodiment can be the assembly of circular configuration inside square structure for outward flange, as shown in fig. 1, can gather light and then imaging to make circular camera lens by the circular configuration inside it.

Wherein, described lens assembly 1 can be arranged to groove structure, as shown in fig. 1, to make the miscellaneous part comprising described coil groups 2 to move to the left side in Fig. 1 and then to be mounted in described lens assembly 1, realize described lens assembly 1 and be connected with described coil groups 2.

In actual applications, described coil groups 2 is arranged in described support 3, described support 3 can play the effect of support coils maintenance definite shape to described coil groups 2, and this support 3 can be arranged in described coil former 4, support described coil groups 2 by described coil former 4 by described support.

Accordingly, described coil former 4 can be embedded in described base 5, is connected with described lens assembly 1 by after coil former 4, described support 3, described coil groups 2 described in described base 5 packing, as buckle connects or nested encryptions.

As shown in fig. 1, the lens assembly 1 that described coil groups 2 need promote its front can realize the movable of described lens assembly 1, and without the need to promoting the structure such as support 3, coil former 4, and then without the need to more thrust, and then the coil that can reduce in coil groups, thus reduce the volume of coil groups.

From such scheme, a kind of camera motor embodiment one provided by the invention, by exchanging the erection sequence of coil former and coil groups, that is, lens assembly in camera motor is connected with necklace group, coil groups is arranged in support, and Bracket setting is in coil former, again coil former is arranged in the base, thus the required power promoted of minimizing coil groups, winding volume can be reduced thus, and then reduce the volume of camera motor and the overall weight of equipment of this camera motor is set, improve user's experience in use, realize the present embodiment object.

With reference to figure 2, for the structural representation of a kind of camera motor embodiment two provided by the invention, wherein, the present embodiment is in described coil groups 2, the position of described optical image stabilizer coil 6 near described lens assembly 1 is arranged, and the position of described auto-focusing coil 7 near described support 3 is arranged.

That is, in the present embodiment, after described auto-focusing coil 7 being arranged on described support 3, again described optical image stabilizer coil 6 is set in described auto-focusing coil 7 front, buckle described lens assembly 1 again, realize described optical image stabilizer coil 6 to arrange near described lens assembly 1.

Thus, the present embodiment in the application, the optical image stabilizer coil 6 carrying out optical anti-vibration utilizes four groups of magnetites to exert a force on the XY direction in such as Fig. 2, the auto-focusing coil 7 z direction in fig. 2 of carrying out auto-focusing utilizes one group of magnetite to exert a force, therefore, in the present embodiment, optical image stabilizer coil 6 is arranged on before auto-focusing coil 7, the coil quantity of described optical image stabilizer coil 6 can be reduced, thus the coil quantity reduced in coil groups 2, and then reduce the volume of camera motor, reach the overall volume reducing to arrange the equipment of described camera motor further.

In specific implementation, two described optical image stabilizer coils and two metal parts can be set in the coil groups 2 in the present embodiment to replace four optical image stabilizer coils in prior art in camera motor.Concrete, described optical image stabilizer coil and described metal parts the structure ringwise that distributes is set, and each described optical image stabilizer coil is that relative position is arranged with a described metal parts respectively, the line between each described optical image stabilizer coil metal parts is corresponding thereto mutually vertical and intersect at the central point of described loop configuration.

Wherein, acting force can be produced between metal parts corresponding with it respectively after each described optical image stabilizer coil electricity.

Based on the structure of above-mentioned coil groups 2, each described optical image stabilizer coil upon power-up can and its metal parts be oppositely arranged separately between produce acting force, due to the square profile structure of optical image stabilizer coil and described metal parts in the ring mechanism of described camera motor, make two amount of force is identical and direction is orthogonal, thus, camera motor in the present embodiment while effectively realizing optical anti-vibration, can keep the stability in the operational process of described camera motor in actual application.

Meanwhile, while producing acting force between each described optical image stabilizer coil and its each self-corresponding metal parts 2, avoid the electromagnetic wave during interphase interaction of two optical image stabilizer coils, and then avoid electromagnetic wave to intersect the instability of produced camera motor.

That is, this embodiment adopts the scheme arranging two optical image stabilizer coils in camera motor to avoid the situation of the camera instability of electromagnetic wave cross occurrence, although reduce camera volume while realizing this purpose, but ensure the stability of optical anti-vibration force in camera motor, in the present embodiment, metal parts is set in the position removing original optical image stabilizer coil, solve this problem, that is, metal parts is adopted to replace two optical image stabilizer coils of the prior art in the present embodiment.

Wherein, described metal parts can be metal balls, as steel ball etc., thus make described steel ball produce magnetization at the optical image stabilizer coil of its correspondence position to steel ball, thus produce corresponding magnetic force, while reduction camera volume, ensure the precision of optical anti-vibration.

In addition, structure is realized based on optical image stabilizer coil in above and metal parts, two auto-focusing coils can be set in described coil groups 2, wherein, between the metal parts that each described auto-focusing coil 4 is separately positioned between two adjacent optical image stabilizer coils and two connected, the line of each described auto-focusing coil and the corresponding magnetite in described camera motor is perpendicular to the plane at described loop configuration place, thus, acting force is produced between the magnetite that each described auto-focusing coil after powered up can be corresponding with it, move forward and backward so that the camera lens in camera motor can be pulled, and then realize auto-focusing.

And in another implementation, structure is realized based on optical image stabilizer coil in above and metal parts, an auto-focusing coil can be set in described coil groups 2, this auto-focusing coil is arranged between two adjacent metal parts, the line of the magnetite in described auto-focusing coil and described camera motor is perpendicular to described loop configuration place plane, thus, described auto-focusing coil after powered up can and described magnetite 5 between produce acting force, so that the camera lens in camera motor can be pulled to move forward and backward, and then realize auto-focusing.

In actual applications, in order to reduce the volume of camera motor further, elastomeric element can be set in described camera motor.Described elastomeric element refers to bear in systems in which and transmit horizontal or vertical load and have and relaxes and suppress plane to cause the element of impact, its effect is that horizontal or vertical load be born and be transmitted to the masterpiece used time can outside, relaxes and the impact suppressing uneven plane as caused in road surface etc.With reference to figure 3, be the structural representation of a kind of camera motor embodiment three provided by the invention, in the present embodiment, described camera motor can also include following structure:

Elastomeric element 8, the first end of described elastomeric element 8 is connected with described lens assembly 1, and the second end of described elastomeric element 8 is connected with described coil groups 2;

Wherein, before described camera motor is activated, described elastomeric element 8 is in the first elastic stage.

That is, described elastomeric element 8 can bear and transmit the load between described lens assembly 1 and described coil groups 2, can relax and suppress impact forces between the two.

Thus, utilize elastomeric element 8 in the present embodiment while the optical image stabilizer coil 6 held in described coil groups 2 and lens assembly 1, elastic acting force is provided, to reduce forward thrust that auto-focusing coil 7 needs to provide or rear drag, such as, described auto-focusing coil 7 need to promote described lens assembly 1 move forward time, described elastomeric element 8 provides the acting force of bounce-back, when described auto-focusing coil 7 needs to pull described lens assembly 1 to move backward, described elastomeric element can provide the acting force pulled, and then the power of described auto-focusing coil 7 when realizing auto-focusing can be reduced, and then reduce coil quantity, the volume of further reduction camera motor.

Wherein, described first elastic stage can be compressive state, and now, described elastomeric element 8 has the impetus power of bounce-back, and described first elastic stage also can be extended state, now, and the pulling function power of dragging after described elastomeric element 8 has.

Wherein, in practical implementations, described elastomeric element 8 can be divided into metal and nonmetal two large classes, in the specific implementation of the present embodiment according to selected material difference, described elastomeric element 8 can be realized by spring, and described spring has compressive state or described extended state.

Concrete, with reference to figure 4, be another structural representation of the embodiment of the present invention, wherein, in described camera motor, following structure can also be comprised:

Elastic stage arranges structure 9, before being activated at described camera motor, arranges the elastic stage of described elastomeric element 8.

In actual applications, first elastic stage of described elastomeric element 8 can be the compressive state of spring also can be extended state, such as, when the first elastic stage of described elastomeric element 8 is compressive state, camera motor in the present embodiment can to utilize in this elastomeric element 8 and described auto-focusing coil 7 by the power required for lens assembly 1 driven forward, and then the coil quantity of described auto-focusing coil 7 in the present embodiment, can be reduced; When the first elastic stage of described elastomeric element 8 is extended state, camera motor in the present embodiment can utilize in this elastomeric element 8 and described lens assembly 1 is dropped required power by described auto-focusing coil 7 backward, and then can reduce the coil quantity of described auto-focusing coil 7 in the present embodiment.Therefore, the present embodiment can reduce coil quantity in specific implementation, reduces the volume of camera motor.

With reference to figure 5, be the structural representation of a kind of electronic equipment embodiment four provided by the invention, wherein, described electronic equipment comprises camera motor 10;

Wherein, described camera motor 10 can include following structure:

Lens assembly 1, coil groups 2, support 3, coil former 4 and base 5, described coil groups 2 comprises optical image stabilizer coil 6 and auto-focusing coil 7;

Wherein, described lens assembly 1 is connected with described coil groups 2, and described coil groups 2 is arranged in described support 3, and described support 3 is arranged in described coil former 4, and described coil former 4 is arranged in described base 5.

It should be noted that, the lens assembly 1 in the present embodiment can be the assembly of circular configuration inside square structure for outward flange, as shown in fig. 1, can gather light and then imaging to make circular camera lens by the circular configuration inside it.

Wherein, described lens assembly 1 can be arranged to groove structure, as shown in fig. 1, to make the miscellaneous part comprising described coil groups 2 to move to the left side in Fig. 1 and then to be mounted in described lens assembly 1, realize described lens assembly 1 and be connected with described coil groups 2.

In actual applications, described coil groups 2 is arranged in described support 3, described support 3 can play the effect of support coils maintenance definite shape to described coil groups 2, and this support 3 can be arranged in described coil former 4, support described coil groups 2 by described coil former 4 by described support.

Accordingly, described coil former 4 can be embedded in described base 5, is connected with described lens assembly 1 by after coil former 4, described support 3, described coil groups 2 described in described base 5 packing, as buckle connects or nested encryptions.

As shown in fig. 1, the lens assembly 1 that described coil groups 2 need promote its front can realize the movable of described lens assembly 1, and without the need to promoting the structure such as support 3, coil former 4, and then without the need to more thrust, and then the coil that can reduce in coil groups, thus reduce the volume of coil groups.

From such scheme, a kind of electronic equipment embodiment four provided by the invention, by exchanging the erection sequence of coil former in its camera motor and coil groups, that is, lens assembly in camera motor is connected with necklace group, coil groups is arranged in support, and Bracket setting is in coil former, again coil former is arranged in the base, thus the required power promoted of minimizing coil groups, winding volume can be reduced thus, and then reduce the volume of camera motor and the overall weight of electronic equipment at this camera motor place is set, improve user's experience in use, realize the present embodiment object.

In electronic equipment in the present embodiment, described camera motor 10 is in its coil groups 2, the position of described optical image stabilizer coil 6 near described lens assembly 1 is arranged, and the position of described auto-focusing coil 7 near described support 3 is arranged, as shown in Figure 2.

That is, in the present embodiment, after described auto-focusing coil 7 being arranged on described support 3, again described optical image stabilizer coil 6 is set in described auto-focusing coil 7 front, buckle described lens assembly 1 again, realize described optical image stabilizer coil 6 to arrange near described lens assembly 1.

Thus, the present embodiment in the application, the optical image stabilizer coil 6 carrying out optical anti-vibration utilizes four groups of magnetites to exert a force on the XY direction in such as Fig. 2, the auto-focusing coil 7 z direction in fig. 2 of carrying out auto-focusing utilizes one group of magnetite to exert a force, therefore, in the present embodiment, optical image stabilizer coil 6 is arranged on before auto-focusing coil 7, the coil quantity of described optical image stabilizer coil 6 can be reduced, thus the coil quantity reduced in coil groups 2, and then reduce the volume of camera motor, reach the overall volume reducing to arrange the electronic equipment of described camera motor further.

In actual applications, in order to reduce the volume of camera motor and electronic equipment further, in the described camera motor in described electronic equipment, elastomeric element can be set.Described elastomeric element refers to bear in systems in which and transmit horizontal or vertical load and have and relaxes and suppress plane to cause the element of impact, its effect is that horizontal or vertical load be born and be transmitted to the masterpiece used time can outside, relaxes and the impact suppressing uneven plane as caused in road surface etc.As shown in Figure 3, in the electronic equipment of the present embodiment, described camera motor 10 can also include following structure:

Elastomeric element 8, the first end of described elastomeric element 8 is connected with described lens assembly 1, and the second end of described elastomeric element 8 is connected with described coil groups 2;

Wherein, before described camera motor 10 is activated, described elastomeric element 8 is in the first elastic stage.

That is, described elastomeric element 8 can bear and transmit the load between described lens assembly 1 and described coil groups 2, can relax and suppress impact forces between the two.

Thus, electronic equipment in the present embodiment utilizes the elastomeric element 8 in camera motor 10 while the optical image stabilizer coil 6 held in described coil groups 2 and lens assembly 1, elastic acting force is provided, to reduce forward thrust that auto-focusing coil 7 needs to provide or rear drag, such as, described auto-focusing coil 7 need to promote described lens assembly 1 move forward time, described elastomeric element 8 provides the acting force of bounce-back, when described auto-focusing coil 7 needs to pull described lens assembly 1 to move backward, described elastomeric element can provide the acting force pulled, and then the power of described auto-focusing coil 7 when realizing auto-focusing can be reduced, and then reduce coil quantity, the volume of further reduction camera motor.

Wherein, described first elastic stage can be compressive state, and now, described elastomeric element 8 has the impetus power of bounce-back, and described first elastic stage also can be extended state, now, and the pulling function power of dragging after described elastomeric element 8 has.

Wherein, in practical implementations, described elastomeric element 8 can be divided into metal and nonmetal two large classes, in the specific implementation of the present embodiment according to selected material difference, described elastomeric element 8 can be realized by spring, and described spring has compressive state or described extended state.

Concrete, as shown in Figure 4, in the electronic equipment of the present embodiment, described camera motor 10 can also comprise following structure:

Elastic stage arranges structure 9, before being activated at described camera motor 10, arranges the elastic stage of described elastomeric element 8.

In actual applications, first elastic stage of described elastomeric element 8 can be the compressive state of spring also can be extended state, such as, when the first elastic stage of described elastomeric element 8 is compressive state, camera motor in the present embodiment can to utilize in this elastomeric element 8 and described auto-focusing coil 7 by the power required for lens assembly 1 driven forward, and then the coil quantity of described auto-focusing coil 7 in the present embodiment, can be reduced; When the first elastic stage of described elastomeric element 8 is extended state, camera motor in the present embodiment can utilize in this elastomeric element 8 and described lens assembly 1 is dropped required power by described auto-focusing coil 7 backward, and then can reduce the coil quantity of described auto-focusing coil 7 in the present embodiment.Therefore, the electronic equipment of the present embodiment can reduce coil quantity in specific implementation, reduces the volume of camera motor and electronic equipment, improves the experience in user's use procedure.

It should be noted that, each embodiment in this instructions all adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar part mutually see.

Finally, also it should be noted that, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the article of a series of key element or equipment not only comprises those key elements, but also comprise other key elements clearly do not listed, or also comprise by this article or the intrinsic key element of equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within the article or equipment comprising described key element and also there is other identical element.

A kind of camera motor provided the application above and electronic equipment are described in detail, apply specific case herein to set forth the principle of the application and embodiment, the explanation of above embodiment is just for helping the core concept understanding the application; Meanwhile, for one of ordinary skill in the art, according to the thought of the application, all will change in specific embodiments and applications, in sum, this description should not be construed as the restriction to the application.

Claims (10)

1. a camera motor, comprising:

Lens assembly, coil groups, support, coil former and base, described coil groups comprises optical image stabilizer coil and auto-focusing coil;

Wherein, described lens assembly is connected with described coil groups, and described coil groups is arranged in described support, and described Bracket setting is in described coil former, and described coil former is arranged in described base.

2. camera motor according to claim 1, is characterized in that, in described coil groups, described optical image stabilizer coil is arranged near described lens assembly, and described auto-focusing coil is near described Bracket setting.

3. camera motor according to claim 1 and 2, is characterized in that, also comprises:

Elastomeric element, the first end of described elastomeric element is connected with described lens assembly, and the second end of described elastomeric element is connected with described coil groups;

Wherein, before described camera motor is activated, described elastomeric element is in the first elastic stage.

4. camera motor according to claim 3, is characterized in that, described elastomeric element comprises spring.

5. the camera motor according to claim 3 or 4, is characterized in that, also comprises:

Elastic stage arranges structure, before being activated at described camera motor, arranges the elastic stage of described elastomeric element.

6. the camera motor according to claim 3 or 4, is characterized in that, described first elastic stage is compressive state or extended state.

7. an electronic equipment, described electronic equipment comprises camera motor;

Wherein, described camera motor comprises:

Lens assembly, coil groups, support, coil former and base, described coil groups comprises optical image stabilizer coil and auto-focusing coil;

Wherein, described lens assembly is connected with described coil groups, and described coil groups is arranged in described support, and described Bracket setting is in described coil former, and described coil former is arranged in described base.

8. electronic equipment according to claim 7, is characterized in that:

In described coil groups, described optical image stabilizer coil is arranged near described lens assembly, and described auto-focusing coil is near described Bracket setting.

9. the electronic equipment according to claim 7 or 8, is characterized in that, described camera motor also comprises:

Elastomeric element, the first end of described elastomeric element is connected with described lens assembly, and the second end of described elastomeric element is connected with described coil groups;

Wherein, before described camera motor is activated, described elastomeric element is in the first elastic stage.

10. electronic equipment according to claim 9, is characterized in that, described camera motor also comprises:

Elastic stage arranges structure, before being activated at described camera motor, arranges the elastic stage of described elastomeric element.