CN105527687A - Lens module having elastic supporting conductive racks - Google Patents
Lens module having elastic supporting conductive racks Download PDFInfo
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- CN105527687A CN105527687A CN201410514132.6A CN201410514132A CN105527687A CN 105527687 A CN105527687 A CN 105527687A CN 201410514132 A CN201410514132 A CN 201410514132A CN 105527687 A CN105527687 A CN 105527687A
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- resiliency supported
- axis
- conduction rack
- camera lens
- lens assembly
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Abstract
The invention discloses a lens module having elastic supporting conductive racks. The lens module comprises a moving seat, conductive elastic sheets arranged at action sides of the moving seat, a lens assembly arranged on the conductive elastic sheets, and at least two elastic supporting conductive racks, wherein the racks comprise power and positioning portions and X/Y axial elastic supporting portions formed through convex-stretching bending, the X/Y axial elastic supporting portions are connected through corner portions, the Y axial elastic supporting portion penetrates through two sides of a lens protection cover and further abuts different side edges of the lens assembly, the elastic supporting effect on X/Y axial displacement action of the lens assembly is realized through the X/Y axial elastic supporting portions, conductive end portions are formed at convex-stretching bending form ends of the elastic supporting conductive racks and are electrically connected with power ends of the two conductive elastic sheets, so the elastic supporting conductive racks can be used as X/Y axial displacement action elastic supporting interfaces of the lens assembly and power supply transmission interfaces.
Description
Technical field
The present invention relates to a kind of camera lens module; Refer to a kind ofly there is resiliency supported to hold concurrently the camera lens module innovation structure of conduction rack especially.
Background technology
In current visible digital camera camera lens module structure on the market, usually can be provided with shockproof displacement and lead device, to reach the function demand of " anti-hand shake ".
The structural form that the present invention leads device mainly for described shockproof displacement is inquired into, described shockproof displacement is led in the structural form design of device, except basic induction and brake structure, also must comprise the limited support structure and current signal conducting structure etc. to camera lens, only look into, current limited support structure and current signal conducting structure usually adopt and arrange form respectively, cause structure too complex thus and are unfavorable for manufacturing the processing problem vertical shaping with group and scarce fraud; In addition, described limited support structure also often exist structural strength not good enough, easily have deadweight sinkage and make difficulty and be unfavorable for volume production etc. problem and scarce fraud; Therefore how to be overcome improvement, in fact for relevant industry is necessary to be made great efforts to think the important technology problem broken through again.
Summary of the invention
Fundamental purpose of the present invention is to provide a kind of to be had resiliency supported and to hold concurrently the camera lens module of conduction rack.
For achieving the above object, the present invention by the following technical solutions:
There is the hold concurrently camera lens module of conduction rack of resiliency supported comprise: a holder, comprises a component installment surface, this component installment surface central authorities tool one first printing opacity perforation, one sliding seat, be mounted in movable moving type in this component installment surface structure, sliding seat comprises a dorsal part and active side, and this dorsal part is relative with component installment surface interval, active side central authorities are provided with a lens assembling portion, this central authorities of lens assembling portion tool one second printing opacity perforation, two electrically conductive elastic sheets, for the plates with electric conductivity are formed, flat be located at sliding seat active side surface and be positioned at the second printing opacity perforated peripheral place in lens assembling portion, two electrically conductive elastic sheets all have into electricity end and feeder ear, one lens assembly, tool one group seat-joined is on two electrically conductive elastic sheets set by the active side being assembled in sliding seat, and the feeder ear of group seat-joined and electrically conductive elastic sheet is electrically connected, make lens assembly be able to the bottom resilient support interface of this electrically conductive elastic sheet as power supply interface and Z-axis direction displacement start, again this in group seat-joined week side be provided with an inductive coil, one camera lens protecting cover, peripheral place of lens assembling portion set by the active side that assembling is positioned sliding seat and protecting cover are in lens assembly periphery, this camera lens protecting cover inner top side is provided with the downward elasticity of an elasticity arrived tableting and compresses lens assembly, set by the group seat-joined that inner relative two sides of camera lens protecting cover are then provided with magnetic and lens assembly, inductive coil is corresponding, again camera lens protecting cover another two sides and be provided with breakthrough portion, one inductive brake unit, is located at the component installment surface of holder and the dorsal part opposite position place of sliding seat, uses induction lens assembly position and order about lens assembly to produce displacement action, at least two resiliency supported are held concurrently conduction rack, by the stereo structure plate body with electric conductivity is formed, resiliency supported conduction rack of holding concurrently comprises one and enters electricity and location division and entered electricity to be protruded out with one end integral type of location division and the tortuous X axis resiliency supported portion that formed and a Y-axis resiliency supported portion by this, wherein be connected mutually by a knuckle position between this X axis resiliency supported portion with Y-axis resiliency supported portion, and make described Y-axis resiliency supported portion and Y-axis resiliency supported portion be each passed through breakthrough portion set by camera lens protecting cover two side and the corresponding different side being resisted against lens assembly, to pass through this X, Y-axis resiliency supported portion is to the X of lens assembly, Y-axis displacement start forms resiliency supported effect, again wherein, the hold concurrently sinuous configuration least significant end that protrudes out of conduction rack of described two resiliency supported is all formed with a Conducting end portions, and described Conducting end portions is used and held be electrically connected with the electricity that enters of two electrically conductive elastic sheets.
Main efficacy results of the present invention and advantage, being that described resiliency supported holds concurrently conduction rack can simultaneously as the double action of the X of lens assembly, Y-axis displacement start resiliency supported interface and electrical transfer interface, camera lens module can be made to reach component simplify and be beneficial to manufacture processing and organize vertical shaping, and have the practical improvement of better supporting construction intensity and better industry utilization benefit concurrently.
Accompanying drawing explanation
Fig. 1 is the combination stereogram of structure preferred embodiment of the present invention.
Fig. 2 is the large portion component exploded perspective view of structure preferred embodiment of the present invention.
Fig. 3 is the thin portion component exploded perspective view of structure preferred embodiment of the present invention.
Fig. 4 is that resiliency supported of the present invention conduction rack of holding concurrently can form the schematic diagram of resiliency supported effect to the X of lens assembly, Y-axis displacement start.
Fig. 5 is that electrically conductive elastic sheet of the present invention and resiliency supported are held concurrently conduction rack configuration floor map.
Fig. 6 be resiliency supported of the present invention hold concurrently conduction rack structural form another implement illustration.
Fig. 7 is that resiliency supported of the present invention is held concurrently the another enforcement illustration of conduction rack structural form.
Fig. 8 is that resiliency supported of the present invention is held concurrently the combination stereogram of a conduction rack structural form embodiment again.
Fig. 9 for hold Fig. 8 take off the Local Members exploded perspective view of embodiment.
Embodiment
As shown in Fig. 1,2,3,4,5, the present invention has resiliency supported and to hold concurrently the preferred embodiment of camera lens module of conduction rack, and only these embodiments are only for explanation, the restriction not by this structure in patented claim, described camera lens module A comprises following formation: a holder 10, comprises a component installment surface 11, this component installment surface 11 central tool one first printing opacity perforation 12, one sliding seat 20, be mounted in component installment surface 11 structure of this holder 10 in movable active state, this sliding seat 20 comprises dorsal part 21 and an active side 22, wherein component installment surface 11 interval of this dorsal part 21 and holder 10 is relative, these active side 22 central authorities are also provided with a lens assembling portion 23, this lens assembling portion 23 central tool one second printing opacity perforation 24, two electrically conductive elastic sheets 30, by the plates with electric conductivity are formed, flat be located at this sliding seat 20 active side 22 surface and be positioned at the second peripheral place of printing opacity perforation 24 in lens assembling portion 23, described two electrically conductive elastic sheets 30 all have into electricity end 31 and feeder ear 32, one lens assembly 40, there is a group seat-joined 41 on two electrically conductive elastic sheets 30 set by the active side 22 being assembled in sliding seat 20, and this group seat-joined 41 is electrically connected with the feeder ear 32 of electrically conductive elastic sheet 30, lens assembly 40 is made to be able to the bottom resilient support interface of this electrically conductive elastic sheet 30 as power supply interface and Z-axis direction displacement start, again this group seat-joined 41 weeks sides group is provided with an inductive coil 42, one camera lens protecting cover 70, peripheral place of lens assembling portion 23 set by the active side 22 that assembling is positioned sliding seat 20 and protecting cover are in lens assembly 40 periphery, this camera lens protecting cover 70 inner top side is provided with the downward elasticity of an elasticity arrived tableting 71 and compresses lens assembly 40, set by the group seat-joined 41 that inner relative two sides of camera lens protecting cover 70 are then provided with magnetic 72 and lens assembly 40, inductive coil 42 is corresponding, again camera lens protecting cover 70 another two sides and be provided with breakthrough portion 73, one inductive brake unit 50, is located at the component installment surface 11 of holder 10 and the dorsal part 21 opposite position place of sliding seat 20, uses induction lens assembly 40 position and order about lens assembly 40 producing displacement action, at least two resiliency supported are held concurrently conduction rack 60, by the stereo structure plate body with electric conductivity is formed, described resiliency supported conduction rack 60 of holding concurrently comprises one and enters electricity and location division 61 and entered electricity protruded out and tortuous X axis resiliency supported portion 62 and the Y-axis resiliency supported portion 63 formed with one end integral type of location division 61 by this, wherein be connected mutually by a knuckle position 64 between this X axis resiliency supported portion 62 with Y-axis resiliency supported portion 63, and make this Y-axis resiliency supported portion 63 pass breakthrough portion 73 set by camera lens protecting cover 70 2 side and the corresponding different side being resisted against lens assembly 40, with the X by this X axis resiliency supported portion 62 and the 63 pairs of lens assemblies 40 in Y-axis resiliency supported portion, Y-axis displacement start forms resiliency supported effect, again wherein, the hold concurrently sinuous configuration least significant end that protrudes out of conduction rack 60 of described two resiliency supported is all formed with a Conducting end portions 65, and described Conducting end portions 65 is used and held 31 to be electrically connected with the electricity that enters of two electrically conductive elastic sheets 30, by this, described resiliency supported hold concurrently conduction rack 60 can simultaneously as the double action person of the X of lens assembly 40, Y-axis displacement start resiliency supported interface and electrical transfer interface.
Form technical characteristic by said structure, the present invention takes off in the actual use of camera lens module A, can produce X, the displacement of Y-axis two axis leads effect; Wherein this lens assembly 40 is driven by inductive brake unit 50, when lens assembly 40 produces X axis displacement movement (as shown in arrow L1) as shown in Figure 4, by X axis resiliency supported portion 62 set by conduction rack 60 of holding concurrently by this resiliency supported against acquisition resiliency supported effect, again when lens assembly 40 produces Y-axis displacement movement (as shown in the arrow L2 of Fig. 4), by Y-axis resiliency supported portion 63 set by conduction rack 60 of holding concurrently by this resiliency supported against acquisition resiliency supported effect; In addition, described resiliency supported conduction rack 60 of holding concurrently has more the effect of steering current and electric signal, described resiliency supported hold concurrently conduction rack 60 from enter electricity with location division 61 import electric current and electric signal, hold 31 to be electrically connected by Conducting end portions 65 and the electricity that enters of electrically conductive elastic sheet 30 again, for should lens assembly 40 operate time required electric power (as flexible start, light-metering induction etc.); By this, form resiliency supported hold concurrently conduction rack 60 can simultaneously as the double action of the X of lens assembly 40, Y-axis displacement start resiliency supported interface and electrical transfer interface, this is core technology place of the present invention.
As shown in Figure 2,3, wherein this inductive brake unit 50, can comprise one first axial ear assembly 53 and second axially one first axial coil groups 55 and the one second axial coil groups 56 that configures in pairs of ear assembly 54 and the component installment surface 11 opposite position place that is located at holder 10 suddenly suddenly that the component installment surface 11 be located at one first axial magnet group 51 and one second axial magnet group 52 that sliding seat 20 dorsal part 21 interval location place configures in pairs and be located at holder 10 uses the aforementioned first axial magnet group 51 of induction and the second axial magnet group 52 position.
As shown in Figure 2,3, wherein the active side 22 of this sliding seat 20 more can be convexly equipped with two discrete location plates 25 of interval, this two location plate 25 is equipped with and plugs perforation 251, again this two electrically conductive elastics sheet 30 enter electricity end 31 coordinate be set as an extension tabs form respectively insert group plug perforation 251 in this two location plate 25.
As shown in Figures 1 to 3, wherein said resiliency supported hold concurrently conduction rack 60 enter electricity with location division 61 also can be set as an inverted T-shaped sheet aspect, this enters electric being then set as with one end of location division 61 and protrudes out tortuous L-shaped support body aspect towards relative two side direction, and then is formed with two X axis resiliency supported portion 62 and two Y-axis resiliency supported portions 63 of balanced configuration.
As shown in Figure 6, wherein this resiliency supported hold concurrently conduction rack 60B also can be Four composition corresponding be located at each side position of camera lens protecting cover 70 form is set, respectively this resiliency supported hold concurrently conduction rack 60B enter electricity with location division 61B be set as an inverted L-shaped sheet aspect, this enters electricity and is then set as towards side to protruding out tortuous L-shaped support body aspect with one end of location division 61B, and then is formed towards an a different X axis resiliency supported portion 62B and Y-axis resiliency supported portion 63B.
Another as shown in Figure 7, the hold concurrently electricity that enters of conduction rack 60C of wherein said resiliency supported is set as an inverted T-shaped sheet aspect with location division 61C, and its X axis resiliency supported portion 62C and Y-axis resiliency supported portion 63C is set as serpentine shape elastic shelf volume morphing.
As shown in Figures 1 to 3, wherein said resiliency supported entering between electricity and location division 61 and X axis resiliency supported portion 62, Y-axis resiliency supported portion 63 of conduction rack 60 of holding concurrently can be integrate shaped type aspect.
Another resiliency supported is as shown in Figure 8,9 held concurrently conduction rack 60D, and it enters electricity and is two-piece type combination form between location division 61D and X axis resiliency supported portion 62D, Y-axis resiliency supported portion 63D.
Advantage of the present invention illustrates:
The present invention has the hold concurrently camera lens module of conduction rack of resiliency supported and axially leads seat mainly through described first, motion guide rod, second axially leads seat, Slide Group joint chair, lead ball, camera lens, slip guide channel, the innovation unique texture form such as inductive brake unit and technical characteristic, the present invention is made to contrast [background technology] existing structure of carrying, hold concurrently conduction rack because of described resiliency supported can simultaneously as the X of lens assembly, the double action of Y-axis displacement start resiliency supported interface and electrical transfer interface, therefore the elastic support structure of camera lens module and power supply interface can be integrated into one, component is from can relatively reduce, the X of conduction rack and described resiliency supported is held concurrently, the dioptric type frame figure that between Y-axis resiliency supported portion, mat knuckle position is connected mutually, structure is simple and easy to shaping and has splendid rigidity of support, can effectively prevent member dead weight sinkage from occurring, camera lens module can be made to reach component simplify and be beneficial to manufacture processing and organize vertical shaping, and have the practical improvement of better supporting construction intensity and better industry utilization benefit concurrently.
The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.
Claims (8)
1. there is resiliency supported to hold concurrently the camera lens module of conduction rack, it is characterized in that, comprising:
One holder, comprises a component installment surface, this component installment surface central authorities tool one first printing opacity perforation;
One sliding seat, be mounted in the component installment surface structure of this holder in movable active state, this sliding seat comprises a dorsal part and an active side, wherein the component installment surface interval of this dorsal part and holder is relative, these active side central authorities are also provided with a lens assembling portion, this central authorities of lens assembling portion tool one second printing opacity perforation;
Two electrically conductive elastic sheets, by the plates with electric conductivity are formed, flat be located at this sliding seat active side surface and be positioned at the second printing opacity perforated peripheral place in lens assembling portion, described two electrically conductive elastic sheets all have into electricity end and feeder ear;
One lens assembly, there is a group seat-joined on two electrically conductive elastic sheets set by the active side being assembled in sliding seat, and the feeder ear of this group seat-joined and electrically conductive elastic sheet is electrically connected, make lens assembly be able to the bottom resilient support interface of this electrically conductive elastic sheet as power supply interface and Z-axis direction displacement start, again this in group seat-joined week side be provided with an inductive coil;
One camera lens protecting cover, peripheral place of lens assembling portion set by the active side that assembling is positioned sliding seat and protecting cover are in lens assembly periphery, this camera lens protecting cover inner top side is provided with the downward elasticity of an elasticity arrived tableting and compresses lens assembly, set by the group seat-joined that inner relative two sides of camera lens protecting cover are then provided with magnetic and lens assembly, inductive coil is corresponding, again camera lens protecting cover another two sides and be provided with breakthrough portion;
One inductive brake unit, is located at the component installment surface of holder and the dorsal part opposite position place of sliding seat, uses induction lens assembly position and order about lens assembly to produce displacement action;
At least two resiliency supported are held concurrently conduction rack, by the stereo structure plate body with electric conductivity is formed, described resiliency supported conduction rack of holding concurrently comprises one and enters electricity and location division and entered electricity to be protruded out with one end integral type of location division and the tortuous X axis resiliency supported portion that formed and a Y-axis resiliency supported portion by this, wherein be connected mutually by a knuckle position between this X axis resiliency supported portion with Y-axis resiliency supported portion, and make described Y-axis resiliency supported portion pass breakthrough portion set by camera lens protecting cover two side and the corresponding different side being resisted against lens assembly, with by this X axis resiliency supported portion and Y-axis resiliency supported portion to the X of lens assembly, Y-axis displacement start forms resiliency supported effect,
Again wherein, the hold concurrently sinuous configuration least significant end that protrudes out of conduction rack of described two resiliency supported is all formed with a Conducting end portions, and described Conducting end portions is used and held be electrically connected with the electricity that enters of two electrically conductive elastic sheets;
By this, described resiliency supported hold concurrently conduction rack can simultaneously as the double action of the X of lens assembly, Y-axis displacement start resiliency supported interface and electrical transfer interface.
2. there is resiliency supported as claimed in claim 1 to hold concurrently the camera lens module of conduction rack, it is characterized in that, described inductive brake unit, comprise and be located at the one first axial magnet group and one second axial magnet group that sliding seat dorsal part interval location place configures in pairs, and the component installment surface being located at holder uses one first axial ear assembly suddenly and the second axial ear assembly suddenly of the aforementioned first axial magnet group of induction and the second axial magnet group position, and the one first axial coil groups that configures in pairs of the component installment surface opposite position place being located at holder and one second axial coil groups.
3. there is resiliency supported as claimed in claim 2 to hold concurrently the camera lens module of conduction rack, it is characterized in that, the active side of described sliding seat is more convexly equipped with two discrete location plates of interval, this two location plate is equipped with and plugs perforation, again this two electrically conductive elastics sheet enter electricity end coordinate be set as an extension tabs form respectively insert group plug perforation in this two location plate.
4. there is resiliency supported as claimed in claim 3 to hold concurrently the camera lens module of conduction rack, it is characterized in that, described resiliency supported hold concurrently conduction rack enter electricity with location division be set as an inverted T-shaped sheet aspect, this enters electric being then set as with one end of location division and protrudes out tortuous L-shaped support body aspect towards relative two side direction, and then is formed with two X axis resiliency supported portions and the two Y-axis resiliency supported portions of balanced configuration.
5. there is resiliency supported as claimed in claim 3 to hold concurrently the camera lens module of conduction rack, it is characterized in that, described resiliency supported hold concurrently conduction rack be Four composition corresponding be located at each side position of lens assembly form is set, respectively this resiliency supported hold concurrently conduction rack enter electricity with location division be set as an inverted L-shaped sheet aspect, this enters electricity and is then set as towards side to protruding out tortuous L-shaped support body aspect with one end of location division, and then is formed towards different X axis resiliency supported portions and a Y-axis resiliency supported portion.
6. the resiliency supported that has as described in claim 4 or 5 is held concurrently the camera lens module of conduction rack, and it is characterized in that, described X axis resiliency supported portion and Y-axis resiliency supported portion are set as serpentine shape elastic shelf volume morphing.
7. have resiliency supported as claimed in claim 6 to hold concurrently the camera lens module of conduction rack, it is characterized in that, what described resiliency supported held concurrently conduction rack enters the formula aspect that to be formed in one between electricity and location division and X axis resiliency supported portion, Y-axis resiliency supported portion.
8. there is resiliency supported as claimed in claim 6 to hold concurrently the camera lens module of conduction rack, it is characterized in that, described resiliency supported hold concurrently conduction rack to enter between electricity and location division and X axis resiliency supported portion, Y-axis resiliency supported portion be two-piece type combination form.
Priority Applications (1)
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CN201410514132.6A CN105527687A (en) | 2014-09-29 | 2014-09-29 | Lens module having elastic supporting conductive racks |
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CN201410514132.6A CN105527687A (en) | 2014-09-29 | 2014-09-29 | Lens module having elastic supporting conductive racks |
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CN105527687A true CN105527687A (en) | 2016-04-27 |
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CN201410514132.6A Pending CN105527687A (en) | 2014-09-29 | 2014-09-29 | Lens module having elastic supporting conductive racks |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113928194A (en) * | 2020-06-29 | 2022-01-14 | 福州明芳汽车部件工业有限公司 | Clutch mechanism with abrasion and shaking prevention function |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201035201Y (en) * | 2007-04-27 | 2008-03-12 | 百隆光电股份有限公司 | Locating structure of lens module |
CN201181355Y (en) * | 2008-02-15 | 2009-01-14 | 台湾东电化股份有限公司 | Micro-lens anti-electromagnetic interference mechanism |
JP2011039426A (en) * | 2009-08-18 | 2011-02-24 | Nidec Sankyo Corp | Lens drive device |
CN105527774A (en) * | 2014-09-29 | 2016-04-27 | 力致科技股份有限公司 | Lens module with shockproof displacement guide function |
-
2014
- 2014-09-29 CN CN201410514132.6A patent/CN105527687A/en active Pending
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201035201Y (en) * | 2007-04-27 | 2008-03-12 | 百隆光电股份有限公司 | Locating structure of lens module |
CN201181355Y (en) * | 2008-02-15 | 2009-01-14 | 台湾东电化股份有限公司 | Micro-lens anti-electromagnetic interference mechanism |
JP2011039426A (en) * | 2009-08-18 | 2011-02-24 | Nidec Sankyo Corp | Lens drive device |
CN105527774A (en) * | 2014-09-29 | 2016-04-27 | 力致科技股份有限公司 | Lens module with shockproof displacement guide function |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113928194A (en) * | 2020-06-29 | 2022-01-14 | 福州明芳汽车部件工业有限公司 | Clutch mechanism with abrasion and shaking prevention function |
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Application publication date: 20160427 |