CN204925489U

CN204925489U - Camera lens module and camera device

Info

Publication number: CN204925489U
Application number: CN201520646189.1U
Authority: CN
Inventors: 于立新
Original assignee: Nanchang OFilm Tech Co Ltd; Suzhou OFilm Tech Co Ltd; Nanchang OFilm Optoelectronics Technology Co Ltd; Shenzhen OFilm Tech Co Ltd
Current assignee: Nanchang OFilm Tech Co Ltd; Suzhou OFilm Tech Co Ltd; Nanchang OFilm Optoelectronics Technology Co Ltd; OFilm Group Co Ltd; Jiangxi Jinghao Optical Co Ltd
Priority date: 2015-08-25
Filing date: 2015-08-25
Publication date: 2015-12-30
Anticipated expiration: 2025-08-25

Abstract

The utility model discloses a camera lens module, including lens cone, primary mirror piece group, focus lens subassembly and magnet, the lens cone has first surface, second surface and link up the first surface and the inner chamber of second surface, primary mirror piece group accepts in the inner chamber and is close to the first surface, the lens subassembly of focusing is acceptd in the inner chamber and is close to the second surface, and the lens subassembly of focusing is including focusing lens, coil and moving part, and focus lens and coil are fixed in the moving part, and the moving part has a strip of slip, the inner wall of lens cone have with the corresponding slip rail of strip that slides, the strip that slides can be followed the slip rail and slided smoothly, magnet is fixed in the lens cone, and when the coil was switched on, magnet and coil cooperated and the power that makes the coil move along the direction that is on a parallel with the optical axis that produces. Destruction and the burnt phenomenon of race that this camera lens module can avoid motor voice coil loudspeaker voice coil and camera lens lock timing torsion to arouse, and do not have dust pollution, avoid the camera lens run -off the straight simultaneously. The utility model provides a camera device.

Description

Camera lens module and camera head

Technical field

The utility model relates to optical camera field, particularly relates to a kind of camera lens module for making a video recording, and has the camera head of this camera lens module.

Background technology

The electronic products such as mobile device, computing machine and accutron have camera head usually, camera head generally includes camera lens, optical filter, image sensor and circuit board, in order to obtain image clearly, camera head needs focusing usually, and existing camera head majority is provided with automatic focusing function.In existing camera lens module, auto-focusing normally moves by motor voice coil loudspeaker voice coil the object that whole camera lens reaches focusing, and motor voice coil loudspeaker voice coil is mated by thread with between camera lens, often there is following problem: motor voice coil loudspeaker voice coil and lens lock timing need the torque magnitude paid close attention between the two, the excessive fragile voice coil motor of torsion; Because the eyeglass of camera lens and the parts of motor voice coil loudspeaker voice coil carrying camera lens are generally polyesters material, so motor voice coil loudspeaker voice coil and lens lock timing, the existence of torsion makes it easily to produce dust, thus pollutes whole module; Motor voice coil loudspeaker voice coil and lens lock timing easily produce inclination, affect the image quality of camera module.

Utility model content

Technical problem to be solved in the utility model is, provides a kind of camera lens module, the destruction that described camera lens module can avoid motor voice coil loudspeaker voice coil and lens lock timing torsion to cause and run burnt phenomenon, and no dust pollution, avoid camera lens run-off the straight simultaneously.

The utility model also provides a kind of camera head.

In order to solve the problem, the utility model takes following technical scheme:

First aspect, the utility model provides a kind of camera lens module, comprising:

Lens barrel, has the inner chamber of first surface, second surface and through described first surface and described second surface;

Main lens set, is contained in described inner chamber and close described first surface;

Focusing lens group part, be contained in described inner chamber and close described second surface, described focusing lens group part comprises focus lens, coil and movable part, described movable part comprises location division and at least two slider bars, the middle part of described location division is provided with mounting hole, described described mounting hole is contained in focus lens, and be fixed on described location division, described coaxial with described main lens set to focus lens, described slider bar is arranged at the outer peripheral edges of described location division, and extend along the direction being parallel to optical axis to the both sides of location division, the inwall of described lens barrel has the slip rail corresponding with described slider bar, described slider bar can slide reposefully along described slip rail, described coil is fixed on described location division,

Magnet, is fixed on described lens barrel, and relative with described coil, when described coil electricity, described magnet and described fitting coils and produce the power that described coil is moved along the direction being parallel to optical axis, thus drive described to focus lens along axis movement.

In the first possibility embodiment of first aspect, described slip rail comprises two relative transverse arms, two trailing arms and slip rail main body, two described transverse arms are arranged at the two ends of described slip rail main body respectively, and extended to side, described location division by the two ends of described slip rail main body respectively, to limit the maximum displacement of described slider bar along optical axis direction, one end of two described trailing arms connects with two described transverse arms respectively, the other end is respectively along being parallel to the direction of optical axis and extending towards described location division, move along the direction perpendicular to optical axis to prevent described slider bar, described slider bar is contained in two described transverse arms, the space that two described trailing arms and described slip rail main body are formed.

In conjunction with the first possibility embodiment of first aspect, in the second possibility embodiment of first aspect, described slip rail also comprises the first groove, described first groove is arranged at two described trailing arms, described first recess-mounted has multiple ball, to reduce the frictional resistance in described slider bar sliding process.

In conjunction with first aspect, or may embodiment in conjunction with first or the second of first aspect, in the third possibility embodiment of first aspect, described slip rail also comprises the raised line that protrudes from the inwall of described lens barrel, described slider bar has second groove corresponding with described raised line towards the side of described raised line, described raised line embeds described second groove, thus described slider bar is directionally moved along the direction being parallel to optical axis.

In conjunction with first aspect, or may embodiment in conjunction with first or the second of first aspect, in the 4th kind of possibility embodiment of first aspect, described slip rail has the 3rd groove, described slider bar embeds described 3rd groove, thus described slider bar is moved along the direction being parallel to optical axis.

In conjunction with first aspect, or may embodiment in conjunction with first or the second of first aspect, in the 5th kind of possibility embodiment of first aspect, described slip rail has the 4th groove, described 4th groove is V-shaped along the xsect perpendicular to the direction of optical axis, arc or rectangle, described slider bar has five groove relative with described 4th groove towards the side of described slip rail, described 5th groove is V-shaped along the xsect perpendicular to the direction of optical axis, arc or rectangle, described 4th groove and described 5th groove fit and accommodate multiple ball, described ball is along the direction arrangement being parallel to optical axis, thus described slider bar is slided reposefully along the direction being parallel to optical axis.

In conjunction with the 5th kind of possibility embodiment of first aspect, in the 6th kind of possibility embodiment of first aspect, each described ball is greater than the half of the volume of described ball by the volume of described 4th groove collecting.

In conjunction with first aspect, or may embodiment in conjunction with first or the second of first aspect, may in embodiment at the 7th kind of first aspect, described movable part is non deformable plastic parts.

In conjunction with first aspect, or may embodiment in conjunction with first or the second of first aspect, in the 8th kind of possibility embodiment of first aspect, the outer peripheral edges of described location division are provided with four described slider bars, and the spacing often between adjacent two described slider bars is equal.

Second aspect, the utility model also provides a kind of camera head, comprise base, optical filter, image sensor, circuit board and the camera lens module described in claim 1 to 9, described base has the accommodation space of upper surface and lower surface and through described upper surface and the described lower surface be oppositely arranged, described optical filter is contained in described accommodation space, and the described upper surface of close described base, described base is arranged at the described second surface of described camera lens module, and the described upper surface of described base and described second surface are fitted, described image sensor is relative with described optical filter, described image sensor is arranged on described circuit board, and be contained in the described accommodation space of described base, described circuit board is pasted on the described lower surface of described base, described image sensor and described circuit board are electrically connected.

Compared with prior art, focusing structural of the present utility model has following beneficial effect: camera lens module of the present utility model using last a slice eyeglass of camera lens as to focus lens, only mobile this is focused to focus lens, when avoiding focusing, motor voice coil loudspeaker voice coil and whole lens lock are joined and are produced torsion and the damage that causes and run burnt phenomenon, avoid the problem that camera lens tilts simultaneously.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment 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 more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of camera lens module in embodiment of the present utility model;

Fig. 2 is the schematic top plan view of movable part in embodiment of the present utility model;

Fig. 3 is the structural representation of rail of sliding in the utility model first embodiment

Fig. 4 is the structural representation that in the first embodiment of the present utility model, focusing lens group part coordinates with slip rail;

Fig. 5 is the schematic cross-section along cutting line A-A in Fig. 4 in the second embodiment of the present utility model;

Fig. 6 is the schematic cross-section along cutting line A-A in Fig. 4 in the 3rd embodiment of the present utility model;

Fig. 7 is the schematic cross-section along cutting line A-A in Fig. 4 in the 4th embodiment of the present utility model;

Fig. 8 is the structural representation of camera head in embodiment of the present utility model.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly described.

Refer to Fig. 1 and Fig. 2, embodiment of the present utility model provides a kind of camera lens module, comprises lens barrel 100, main lens set 200, focusing lens group part 300 and magnet 400.

Lens barrel 100 has first surface 120, second surface 130, and the inner chamber of through first surface 120 and second surface 130;

Main lens set 200 is contained in described inner chamber, and near first surface 120;

Focusing lens group part 300 is contained in described inner chamber and near second surface 130, focusing lens group part 300 comprises focus lens 310, coil 320 and movable part 330.Preferably, are eyeglasses to focus lens 310, and in embodiment of the present utility model, the quantity of eyeglass can also be increased as required, such as, can be formed by two lens combinations focus lens 310.Movable part 330 comprises shown in location division 332 and at least two slider bars 333, Fig. 2, and movable part 330 has 4 slider bars 333, and preferably, the spacing often between adjacent two slider bars 333 is equal.Be understandable that, in embodiment of the present utility model, the number of slider bar can increase or reduce as required.The middle part of location division 330 is provided with mounting hole 331, make location division 332 in the form of a ring, be contained in mounting hole 331 to focus lens 310, and location division 332 is fixed on to focus lens 310, coaxial with main lens group 200 to focus lens 310, slider bar 333 compartment of terrain is arranged at the outer peripheral edges of location division 332, and extends along the direction being parallel to optical axis to the both sides of location division 332, and namely slider bar 333 is parallel to the direction of optical axis.The inwall of lens barrel 100 also has the slip rail 110 corresponding with slider bar 333 shape, slider bar 333 can slide reposefully along slip rail 110, and slider bar 333 and slip rail 110 cooperatively interact, and movable part is moved back and forth reposefully along optical axis direction.Coil 320 is fixed on location division 332, preferably, coil 320 is arranged at the position of location division 332 near slider bar 333.

Magnet 400 is fixed in lens barrel 100, preferably, magnet 400 is relative in a direction parallel to the optical axis with coil 320 and arrange, simultaneously, make the S pole of magnet 400 and the line of N pole perpendicular to the flow direction of electric current in coil 320, when coil 320 is energized, magnet 400 coordinates with coil 320 and produces the Lorentz force that coil 320 is moved along the direction being parallel to optical axis, because coil 320 is fixed on the location division 332 of movable part 330, and the movable part 330 of focusing lens group part 300 has the slider bar 333 that can slide along slip rail 110, therefore, the Lorentz force produced drives whole focusing lens group part 300 along axis movement, make to realize focus process to focus lens 310.In embodiment of the present utility model using last a slice eyeglass of camera lens or part lens as to focus lens 310, only need move focus lens 310 during focusing, when avoiding focusing, motor voice coil loudspeaker voice coil and whole lens lock are joined and are produced torsion and the damage that causes and run burnt phenomenon, avoid the problem that camera lens tilts simultaneously.

Refer to Fig. 3 and Fig. 4, Fig. 3 is the structural representation of rail 110 of sliding in the utility model first embodiment, and Fig. 4 is the structural representation that in the first embodiment of the present utility model, focusing lens group part 300 coordinates with slip rail 110.Slip rail 110 has two relative transverse arms, 111, two trailing arms 112 and slip rail main body 116, and slip rail main body is arranged on the inwall of lens barrel 100, and is parallel to optical axis; Two described transverse arms 111 are arranged at slip rail main body 116 two ends respectively, that is, a transverse arm 111 is in the thing side of slider bar, and another transverse arm 111 is in the image side of slider bar 333, the side at actual scenery place when described thing side refers to photographed, the side of imaging when described image side refers to photographed.And, two transverse arms 111 are extended to side, location division 332 by the two ends of slip rail main body 116 respectively, with the maximum displacement that limit slippage bar 333 moves along the direction being parallel to optical axis, one end of two trailing arms 112 connects with two transverse arms 111 respectively, the other end is respectively along being parallel to the direction of optical axis and extending towards location division 332, location division 332 is between two trailing arms 112, namely the other end of two trailing arms 112 is relative in a direction parallel to the optical axis, to slider bar 333 position-limiting actions, in case sliding stop bar 333 moves along the direction perpendicular to optical axis, impact focusing, slider bar 333 is contained in two transverse arms 111, the receiving space that two trailing arms 112 and slip rail main body 116 are formed.

Refer to Fig. 5, Fig. 5 is the schematic cross-section along cutting line A-A in Fig. 4 in the second embodiment of the present utility model.The structure of the camera lens module in the present embodiment is substantially identical with the structure of the camera lens module in the first embodiment, difference is, slip rail 110 in camera lens module in the present embodiment also comprises the first groove 1121, first groove 1121 is arranged at two trailing arms 112, the first groove 1121 in two trailing arms is at same plane, and it is parallel with optical axis, to coordinate the motion of slider bar 333, multiple ball 1122 is inlaid with in first groove 1121, ball 1122 is along the direction arrangement being parallel to optical axis, to reduce the frictional resistance in described slider bar 333 sliding process, each some volume of ball 1122 is contained in the first groove 1121, the volume that each ball 1122 is contained in the first groove 1121 is greater than 1/2nd of the volume of ball 1122.First groove 1121 can curved, rectangle or V-arrangement along the xsect in the direction perpendicular to optical axis, also can be other shapes can accommodating 1/2nd volumes being greater than ball 1122.Because trailing arm 112 pairs of slider bars 333 are spacing, slider bar 333 inevitably contacts with trailing arm, the frictional resistance of easy increase slider bar 333, thus may focus effects be affected, ball in the present embodiment, just for reducing the frictional resistance in slider bar 333 sliding process, makes slider bar 333 smoothly successfully move.

Still Fig. 5 is referred to, the slip rail 110 of the present embodiment also comprises a raised line 113, raised line 113 is arranged at the side of slip rail main body 116 towards slider bar 333, raised line 113 is parallel to optical axis, slider bar 333 has second groove 3331 corresponding with raised line 113 towards the side of raised line 113, and raised line 113 embeds the second groove 3331, when coil 320 is subject to Lorentz force, raised line 113 slides along the second groove 3331, thus makes slider bar 333 can along the direction directed movement being parallel to optical axis.

Refer to Fig. 6, Fig. 6 is the schematic cross-section along cutting line A-A in Fig. 4 in the 3rd embodiment of the present utility model.The structure of the camera lens module in the present embodiment is substantially identical with the structure of the camera lens module of the second embodiment, difference is, slip rail 110 has the 3rd groove 114,3rd groove 114 is arranged at the side of slip rail main body 116 towards slider bar 333, slider bar 333 has the raised line 3333 matched with the 3rd groove 114, raised line 3333 embeds the 3rd groove 114, thus makes slider bar 333 can along the direction directed movement being parallel to optical axis.

Refer to Fig. 7, Fig. 7 is the schematic cross-section along cutting line A-A in Fig. 4 in the 4th embodiment of the present utility model.The structure of the camera lens module in the present embodiment is substantially identical with the structure of the camera lens module of the second embodiment, difference is, slip rail 110 has the 4th groove 115,4th groove 115 is arranged at the side towards slider bar 333 of slip rail main body 116,4th groove 115 is V-shaped along the xsect in the direction perpendicular to optical axis, rectangle or arc, or other shapes.Slider bar 333 has towards the side of slip rail main body 116 that five groove 3332, five groove 3332 relative with the 4th groove 115 is V-shaped along the xsect perpendicular to optical axis direction, arc or rectangle, also can be other shapes.4th groove 115 coordinates with the 5th groove 3332 and accommodates multiple ball 1122, and ball 1122 along the direction arrangement being parallel to optical axis, thus makes slider bar 333 steadily, successfully can slide along the direction being parallel to optical axis.In the present embodiment, the side of slider bar 333 by trailing arm 112 and the side by slip rail main body 116 all have ball 1122, thus make slider bar 333 ensure that slider bar 333 can smoothly, without barrier slide while perpendicular to non-displacement on the direction of optical axis, thus ensure that focus process efficiently, is in high quality carried out.

In an embodiment of the present utility model, movable part 330 is non deformable plastic parts.

In an embodiment of the present utility model, the spacing often between adjacent two slider bars 333 is equal

Referring to Fig. 8, is the structural representation of camera head in embodiment of the present utility model.Described camera head comprises arbitrary described camera lens module 10 of base 500, optical filter 600, image sensor 700, circuit board 800 and above embodiment and accompanying drawing.Base 500 has the accommodation space of upper surface and lower surface and through described upper surface and the described lower surface be oppositely arranged, described upper surface be towards with described first surface 120 towards identical surface, described lower surface be towards with described second surface 130 towards identical surface, optical filter 600 is arranged at the described accommodation space of base 500, and the upper surface of close base 500, base 500 is arranged at the second surface 130 of the lens barrel 100 of camera lens module 10, and the upper surface of base 500 and second surface 130 are fitted.Image sensor 700 is relative with optical filter 600, and image sensor 700 is arranged on circuit board 800, and is contained in the described accommodation space of base 500, and circuit board 800 is fixed on the lower surface of base 500, and image sensor 700 and circuit board 800 are electrically connected.

Above-described embodiment, does not form the restriction to this technical scheme protection domain.The amendment done within any spirit at above-mentioned embodiment and principle, equivalently to replace and improvement etc., within the protection domain that all should be included in this technical scheme.

Claims

1. a camera lens module, is characterized in that, comprising:

2. camera lens module as claimed in claim 1, it is characterized in that, described slip rail comprises two relative transverse arms, two trailing arms and slip rail main body, two described transverse arms are arranged at the two ends of described slip rail main body respectively, and extended to side, described location division by the two ends of described slip rail main body respectively, to limit the maximum displacement of described slider bar along optical axis direction, one end of two described trailing arms connects with two described transverse arms respectively, the other end is respectively along being parallel to the direction of optical axis and extending towards described location division, move along the direction perpendicular to optical axis to prevent described slider bar, described slider bar is contained in two described transverse arms, the space that two described trailing arms and described slip rail main body are formed.

3. camera lens module as claimed in claim 2, it is characterized in that, described slip rail also comprises the first groove, and described first groove is arranged at two described trailing arms, described first recess-mounted has multiple ball, to reduce the frictional resistance in described slider bar sliding process.

4. the camera lens module as described in any one of claims 1 to 3, it is characterized in that, described slip rail also comprises the raised line that protrudes from the inwall of described lens barrel, described slider bar has second groove corresponding with described raised line towards the side of described raised line, described raised line embeds described second groove, thus described slider bar is directionally moved along the direction being parallel to optical axis.

5. the camera lens module as described in any one of claims 1 to 3, is characterized in that, described slip rail has the 3rd groove, and described slider bar embeds described 3rd groove, thus described slider bar is directionally moved along the direction being parallel to optical axis.

6. the camera lens module as described in any one of claims 1 to 3, it is characterized in that, described slip rail has the 4th groove, described 4th groove is V-shaped along the xsect perpendicular to the direction of optical axis, arc or rectangle, described slider bar has five groove relative with described 4th groove towards the side of described slip rail, described 5th groove is V-shaped along the xsect perpendicular to the direction of optical axis, arc or rectangle, described 4th groove and described 5th groove fit and accommodate multiple ball, described ball is along the direction arrangement being parallel to optical axis, thus described slider bar is slided reposefully along the direction being parallel to optical axis.

7. camera lens module as claimed in claim 6, is characterized in that, each described ball is greater than the half of the volume of described ball by the volume of described 4th groove collecting.

8. the camera lens module as described in any one of claims 1 to 3, is characterized in that, described movable part is non deformable plastic parts.

9. the camera lens module as described in any one of claims 1 to 3, is characterized in that, the outer peripheral edges of described location division are provided with four described slider bars, and the spacing often between adjacent two described slider bars is equal.

10. a camera head, it is characterized in that, comprise base, optical filter, image sensor, circuit board and the camera lens module described in claim 1 to 9, described base has the accommodation space of upper surface and lower surface and through described upper surface and the described lower surface be oppositely arranged, described optical filter is contained in described accommodation space, and the described upper surface of close described base, described base is arranged at the described second surface of described camera lens module, and the described upper surface of described base and described second surface are fitted, described image sensor is relative with described optical filter, described image sensor is arranged on described circuit board, and be contained in the described accommodation space of described base, described circuit board is pasted on the described lower surface of described base, described image sensor and described circuit board are electrically connected.