CN205453880U - Camera module and electronic device - Google Patents

Abstract

The utility model provides a camera module and electronic device relates to the photoelectrical technique field, can reduce the thickness of camera to do benefit to the thickness that reduces electronic equipment. This camera module includes: optical components including first lens, second lens with be used for the mirror body of reverberation, becomes to predetermine the contained angle between first lens and the second lens, first lens include first incident surface and first emitting face, and the second lens include second incident surface and second emitting face, and the mirror position is in one side of first emitting face and be located one side of second incident surface, and light is followed first lens and is penetrated when personally experiencing sth. Part of the body to the mirror, light reflex to second lens, optic fibre, including first terminal surface and second terminal surface, first terminal surface corresponds the second emitting face, the electricity subassembly, including image sensor and mainboard, image sensor is connected with the mainboard electricity, and the second terminal surface of optic fibre pastes in image sensor, and image sensor is used for transferring light to the signal of telecommunication, and the mainboard is used for being electric signal transition the digital image signal and handling.

Description

Photographic head module and electronic equipment

Technical field

This utility model relates to field of photoelectric technology, particularly relates to a kind of photographic head module and electronic equipment.

Background technology

In the epoch that nowadays electronic information is flourishing, photographic head is widely used in electronic equipment, such as be generally provided with photographic head in the electronic equipment such as notebook computer, mobile phone, and electronic equipment can realize video by photographic head, image and take pictures etc. function.

At present, the structure of photographic head generally camera lens, imageing sensor and mainboard etc. are arranged in order along straight line, wherein, mainboard includes A/D (analog/digital) transducer and DSP (DigitalSignalProcess, Digital Signal Processing) chip etc., light path is injected from camera lens, linearly propagate to imageing sensor, imageing sensor is connected to mainboard, transfer the optical imagery received to the signal of telecommunication, convert electrical signals to data image signal through A/D converter, then processed by dsp chip, so that imaging in the electronic device.

But, photographic head is arranged in order along straight line by above-mentioned camera lens, imageing sensor and mainboard etc. and forms certain thickness, this thickness constrains the thickness of casting of electronic device, and owing to electronic equipment increasingly develops towards lightening direction, the thickness the most how reducing photographic head becomes to attach most importance to.

Utility model content

In view of this, this utility model embodiment provides a kind of photographic head module and electronic equipment, it is possible to reduce the thickness of photographic head, is beneficial to reduce the thickness of electronic equipment.

For reaching above-mentioned purpose, this utility model mainly provides following technical scheme:

On the one hand, this utility model embodiment provides a kind of photographic head module, including:

Optical module, described optical module includes the first lens, second lens and for reflecting the mirror body of light, described first lens become default angle to arrange with described second lens each other, described first lens include the first relative plane of incidence and the first exit facet, described second lens include the second relative plane of incidence and the second exit facet, described mirror body is positioned at the side of described first exit facet of described first lens, and it is positioned at the side of described second plane of incidence of described second lens, when light is incident upon described mirror body from described first lens, described light reflexes to described second lens by described mirror body；

Optical fiber, described optical fiber includes the first end face and the second end face, and described first end face is corresponding to the side of described second exit facet of described second lens, and described optical fiber is for being conducted through the described light of described second lens；

Electric components, described electric components includes imageing sensor and mainboard, described imageing sensor electrically connects with described mainboard, described second end face of described optical fiber is attached at described imageing sensor, described imageing sensor is for transferring the described light of conduction to described second end face to the signal of telecommunication, and described mainboard is for being converted to data image signal by the described signal of telecommunication and processing.

Further, described optical module also includes that infrared fileter, described infrared fileter are arranged between described first end face of described optical fiber and described second lens.

Specifically, described default angle is right angle.

Specifically, described mirror body is corner cube prism, and described corner cube prism includes the first right-angle surface and the second right-angle surface intersected, and described first lens correspond to described first right-angle surface, and described second lens correspond to described second right-angle surface.

Specifically, described corner cube prism has the first facet, the cut plane formed of acute ends that described first facet intersects with the reflecting surface of described corner cube prism by described second right-angle surface；Described second lens have the second facet, and the cut plane formed in one end that described second facet is described second lens, described second facet is in the same plane with described first facet.

Further, described optical module also includes the first fixture for fixing described first lens and for fixing the second fixture of described second lens, described first fixture is pasted on described first right-angle surface of described corner cube prism, and described second fixture is pasted on described second right-angle surface of described corner cube prism；The two sides of described infrared fileter is pasted on described first end face of described second fixture and described optical fiber respectively, and described second end face of described optical fiber is close to described imageing sensor.

Specifically, the profile of described first fixture and described second fixture is cubic shaped；Described first lens are pasted in described first fixture by optical cement, and described second lens are pasted in described second fixture by optical cement；Described first fixture, described corner cube prism, described second fixture, described infrared fileter, described optical fiber and described imageing sensor pass sequentially through optical cement and mutually paste.

Specifically, described first lens and described second lens are optical glass lens.

On the other hand, this utility model embodiment provides a kind of electronic equipment, including:

Housing, described housing includes Part I and Part II；

Above-mentioned photographic head module, described optical module is arranged in described Part I, and described electric components is arranged in described Part II, and described optical fiber extends in described Part II from described Part I.

Specifically, described electronic equipment is notebook computer, and described Part I is the shell of the display module of described notebook computer, and described Part II is the shell of the host component of described notebook computer；Being provided with camera aperture on the shell of described display module, described first lens are positioned in described camera aperture, and the shell of described display module is close to described optical module.

A kind of photographic head module of this utility model embodiment offer and electronic equipment, photographic head module it is provided with in electronic equipment, light is injected from the first lens of optical module, it is refracted to be positioned at the mirror body of the first exit facet side of the first lens, mirror body by luminous reflectance to the second lens, light is incident upon the first end face of the optical fiber of the second exit facet side corresponding to the second lens by the second lens, light conducts to the second end face from the first end face of optical fiber, it is mapped to be connected to the imageing sensor of the second end face of optical fiber again, imageing sensor transfers light to the signal of telecommunication, convert electrical signals to data image signal by mainboard again and process, signal after processing can be passed to store or in display unit, by display unit just it can be seen that image；nullWherein，First lens and the second lens become default angle to arrange each other，It is arranged on the side of the first exit facet of the first lens and the side of second plane of incidence of the second lens for reflecting the mirror body of light，When light is after the first lens entrance，The second lens can be reflexed to by mirror body，That is the path of light there occurs bending，Wherein the angle of bending is complementary with default angle，Need between second lens and the first end face of optical fiber to leave enough imaging spaces，The light reflected from the second lens is enable to focus on the first end face of optical fiber imaging，Optical fiber can conduct the light received，When photographic head module is arranged in the electronic device，The housing of electronic equipment includes Part I and Part II，Optical module may be provided in Part I，Electric components may be provided in Part II，Light is conducted to electric components from optical module by optical fiber，Photographic head compared to existing technology is by camera lens、Imageing sensor and mainboard etc. are arranged in order composition along straight line，This utility model embodiment has between the first lens and the second lens default angle，Photographic head module is made to have the structure of turnover，And optical module may be provided at locus different in electronic equipment from electric components，Without being arranged at a locus，The thickness of photographic head can be reduced，It is beneficial to reduce the thickness of electronic equipment.

Accompanying drawing explanation

The structural representation of a kind of photographic head module that Fig. 1 provides for this utility model embodiment；

Fig. 2 is the structural representation that in Fig. 1, the optical module of photographic head module is arranged in the Part I of electronic equipment.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.

As shown in Figure 1, this utility model embodiment provides a kind of photographic head module, including: optical module 1, optical module 1 includes the first lens 11, second lens 12 and for reflecting the mirror body 13 of light, first lens 11 become to preset angle each other and arrange with the second lens 12, first lens 11 include the first relative plane of incidence and the first exit facet, second lens 12 include the second relative plane of incidence and the second exit facet, mirror body 13 is positioned at the side of the first exit facet of the first lens 11, and it is positioned at the side of second plane of incidence of the second lens 12, when light is incident upon mirror body 13 from the first lens 11, light reflexes to the second lens 12 by mirror body 13；Optical fiber 2, optical fiber 2 includes the first end face and the second end face, and the first end face is corresponding to the side of the second exit facet of the second lens 12, and optical fiber 2 is for being conducted through the light of the second lens；Electric components 3, electric components 3 includes imageing sensor 31 and mainboard 32, imageing sensor 31 electrically connects with mainboard 32, second end face of optical fiber 2 is attached at imageing sensor 31, imageing sensor 31 is for transferring the light of conduction to the second end face to the signal of telecommunication, and mainboard 32 is used for converting electrical signals to data image signal and processing.

Wherein, the surface that lens transparency material is made is the optical element of piece, and the camera lens of general photographic head is made up of several lens, including plastic lens and glass lens；Use two groups of lens, first lens 11 and the second lens 12, become to preset angle between first lens 11 with the second lens 12, light is injected from the first lens 11, it is refracted to be positioned at the mirror body 13 of the first exit facet side of the first lens 11, mirror body 13 by luminous reflectance to the second lens 12, say, that the path of light there occurs bending, and default angle between the angle of wherein bending and two lens is complementary；Optical fiber is fibre-optic writing a Chinese character in simplified form, it it is a kind of fiber being made up of glass or plastics, instrument can be conducted as light, transmission principle is the total reflection of light, first end face of optical fiber 2 is corresponding to the side of the second exit facet of the second lens 12, light is incident upon the first end face of optical fiber 2 by the second lens 12, light conducts the second end face to optical fiber 2 by optical fiber 2, second end face of optical fiber 2 is attached at imageing sensor 31, imageing sensor 31 transfers light to the signal of telecommunication, general mainboard includes A/D converter and dsp chip etc., A/D converter converts electrical signals to data image signal, processed by dsp chip again, signal after processing can be passed to store or in display unit, by display unit it can be seen that image.Photographic head module includes optical module 1 and electric components 3, by optical fiber 2, the light injected from optical module 1 is conducted to electric components 3, carry out signal conversion and process, when photographic head module is arranged in the electronic device, the housing of electronic equipment includes Part I and Part II, optical module 1 may be provided in Part I, electric components 3 may be provided in Part II, optical fiber 2 extends in Part II from Part I, then the first end face of optical fiber 2 is positioned in Part I, and the second end face of optical fiber 2 is positioned in Part II.

A kind of photographic head module that this utility model embodiment provides, light is injected from the first lens of optical module, it is refracted to be positioned at the mirror body of the first exit facet side of the first lens, mirror body by luminous reflectance to the second lens, light is incident upon the first end face of the optical fiber of the second exit facet side corresponding to the second lens by the second lens, light conducts to the second end face from the first end face of optical fiber, it is mapped to be connected to the imageing sensor of the second end face of optical fiber again, imageing sensor transfers light to the signal of telecommunication, convert electrical signals to data image signal by mainboard again and process, signal after processing can be passed to store or in display unit, by display unit just it can be seen that image；nullWherein，First lens and the second lens become default angle to arrange each other，It is arranged on the side of the first exit facet of the first lens and the side of second plane of incidence of the second lens for reflecting the mirror body of light，When light is after the first lens entrance，The second lens can be reflexed to by mirror body，That is the path of light there occurs bending，Wherein the angle of bending is complementary with default angle，Need between second lens and the first end face of optical fiber to leave enough imaging spaces，The light reflected from the second lens is enable to focus on the first end face of optical fiber imaging，Optical fiber can conduct the light received，When photographic head module is arranged in the electronic device，The housing of electronic equipment includes Part I and Part II，Optical module may be provided in Part I，Electric components may be provided in Part II，Light is conducted to electric components from optical module by optical fiber，Photographic head compared to existing technology is by camera lens、Imageing sensor and mainboard etc. are arranged in order composition along straight line，This utility model embodiment has between the first lens and the second lens default angle，Photographic head module is made to have the structure of turnover，And optical module may be provided at locus different in electronic equipment from electric components，Without being arranged at a locus，The thickness of photographic head can be reduced，It is beneficial to reduce the thickness of electronic equipment.

Further, optical module 1 also includes that infrared fileter 14, infrared fileter 14 are arranged between the first end face of optical fiber 2 and the second lens 12.Wherein, infrared fileter 14 act as stopping that infrared ray enters optical fiber so that the light entering optical fiber 2 only has visible ray, and then the image making the image got see with human eye is consistent.What deserves to be explained is, the position that infrared fileter 14 is arranged can not be between the second end face of optical fiber 2 and imageing sensor 31, this is because light conducts in optical fiber 2 in the way of total reflection, if infrared fileter 14 is between second end face and imageing sensor 31 of optical fiber 2, then can there is, in infrared fileter 14, phenomenon of running chaotically in light, then can affect imaging.

Specifically, default angle is right angle.Angle between i.e. first lens 11 and the second lens 12 is 90 degree, then the angle of the bending in the path of light is 90 degree, and it is 45 degree that the reflecting surface of mirror body 13 may be designed to the angle with light path.

Specifically, mirror body 13 is corner cube prism, and corner cube prism includes the first right-angle surface and the second right-angle surface intersected, and the first lens 11 are corresponding to the first right-angle surface, and the second lens 12 are corresponding to the second right-angle surface.The reflection realizing light can use corner cube prism or plane mirror, and compares plane mirror, and corner cube prism is more easily installed, and has more preferable stability and intensity to mechanical stress, is all kinds of device and the optimum selection of instrument optical element.The inclined-plane of corner cube prism is the reflecting surface 131 of corner cube prism, and light is incident upon the reflecting surface 131 of corner cube prism from the first lens 11, reflexes to the second lens 12.

Specifically, corner cube prism has the first facet 132, the cut plane formed of acute ends that the first facet 132 intersects with the reflecting surface 131 of corner cube prism by the second right-angle surface；Second lens 12 have the second facet 121, and the cut plane formed in one end that the second facet 121 is the second lens 12, the second facet 121 is in the same plane with the first facet 132.By corner cube prism and an edge cuts of the second lens 12, forming the first facet 132 and the second facet 121 respectively, the part wherein cut away is the part being not involved in imaging, so can reduce the thickness of optical module 1, the thickness space shared by saving.

Further, optical module 1 also includes for the first fixture 15 of fixed first lens 11 and for fixing the second fixture 16 of the second lens 12, first fixture 15 is pasted on the first right-angle surface of corner cube prism, and the second fixture 16 is pasted on the second right-angle surface of corner cube prism；The two sides of infrared fileter 14 is pasted on the first end face of the second fixture 16 and optical fiber 2 respectively, and the second end face of optical fiber 2 is close to imageing sensor 31.Wherein, the second lens 12 are fixed on the first end face with optical fiber 2 and have the position of enough imaging spaces by the second fixture 16, with imaging of can focusing on the first end face of optical fiber 2 after passing light through the second lens 12.

Specifically, the profile of the first fixture 15 and the second fixture 16 is cubic shaped；First lens 11 are pasted in the first fixture 15 by optical cement, and the second lens 12 are pasted in the second fixture 16 by optical cement；First fixture 15, corner cube prism, the second fixture 16, infrared fileter 14, optical fiber 2 and imageing sensor 31 pass sequentially through optical cement and mutually paste.Wherein, optical cement is the special adhesive for cementing transparent optical element, has water white transparency, light transmission rate more than 90%, the feature such as cementing strength is good, solidify under room temperature or middle temperature, cure shrinkage is little.

Specifically, the first lens 11 and the second lens 12 are optical glass lens.Wherein, optical glass has the features such as transparency is high, pure, colourless, homogeneous, and has good refractive power, compares the lens of plastic cement material, uses optical glass, and imaging effect is wanted more preferably, and image becomes apparent from, exquisiteness.

As depicted in figs. 1 and 2, this utility model embodiment also provides for a kind of electronic equipment, including: housing, housing includes Part I 4 and Part II (not shown)；Above-mentioned photographic head module, optical module 1 is arranged in Part I 4, and electric components 3 is arranged in Part II, and optical fiber 2 extends in Part II from Part I 4.

Wherein, structure and the operation principle of photographic head module are same as the previously described embodiments, do not repeat them here.Optical module 1 and the electric components 3 of photographic head module are separately positioned in Part I 4 and the Part II of casting of electronic device, by optical fiber 2, light are conducted to electric components 3 from optical module 1, then carry out signal conversion and process.

Specifically, electronic equipment is notebook computer, and Part I 4 is the shell of the display module of notebook computer, and Part II is the shell of the host component of notebook computer；Being provided with camera aperture on the shell of display module, the first lens 11 are positioned in camera aperture, and the shell of display module is close to optical module.In the shell of the display module that the optical module 1 of photographic head module is arranged on notebook computer, in the shell of the host component that the electric components 3 of photographic head module is arranged on notebook computer, wherein, display module is the part at the display screen place of notebook computer, host component is the part at the keyboard place of notebook computer, the position of the general frame region that optical module 1 is arranged on around corresponding to display screen, this area of space is relatively limited, by optical fiber 2 by the electric components 3 in light conduction to the shell of host component, the housing interior volume of host component is well-to-do, first lens 11 are positioned in the camera aperture on display module shell, the shell of display module is close to optical module 1, it is beneficial to the reduction of the outer casing thickness of display module, and electric components 3 is beneficial to heat radiation in well-to-do space.

A kind of electronic equipment that this utility model embodiment provides, photographic head module it is provided with in it, light is injected from the first lens of optical module, it is refracted to be positioned at the mirror body of the first exit facet side of the first lens, mirror body by luminous reflectance to the second lens, light is incident upon the first end face of the optical fiber of the second exit facet side corresponding to the second lens by the second lens, light conducts to the second end face from the first end face of optical fiber, it is mapped to be connected to the imageing sensor of the second end face of optical fiber again, imageing sensor transfers light to the signal of telecommunication, convert electrical signals to data image signal by mainboard again and process, signal after processing can be passed to store or in display unit, by display unit just it can be seen that image；nullWherein，First lens and the second lens become default angle to arrange each other，It is arranged on the side of the first exit facet of the first lens and the side of second plane of incidence of the second lens for reflecting the mirror body of light，When light is after the first lens entrance，The second lens can be reflexed to by mirror body，That is the path of light there occurs bending，Wherein the angle of bending is complementary with default angle，Need between second lens and the first end face of optical fiber to leave enough imaging spaces，The light reflected from the second lens is enable to focus on the first end face of optical fiber imaging，Optical fiber can conduct the light received，When photographic head module is arranged in the electronic device，The housing of electronic equipment includes Part I and Part II，Optical module may be provided in Part I，Electric components may be provided in Part II，Light is conducted to electric components from optical module by optical fiber，Photographic head compared to existing technology is by camera lens、Imageing sensor and mainboard etc. are arranged in order composition along straight line，This utility model embodiment has between the first lens and the second lens default angle，Photographic head module is made to have the structure of turnover，And optical module may be provided at locus different in electronic equipment from electric components，Without being arranged at a locus，The thickness of photographic head can be reduced，It is beneficial to reduce the thickness of electronic equipment.

The above, it it is only preferred embodiment of the present utility model, not this utility model is made any pro forma restriction, any simple modification, equivalent variations and the modification made above example according to technical spirit of the present utility model, all still falls within the range of technical solutions of the utility model.

Claims (10)

1. a photographic head module, it is characterised in that including:

Optical module, described optical module includes the first lens, second lens and for reflecting the mirror body of light, described first lens become default angle to arrange with described second lens each other, described first lens include the first relative plane of incidence and the first exit facet, described second lens include the second relative plane of incidence and the second exit facet, described mirror body is positioned at the side of described first exit facet of described first lens, and it is positioned at the side of described second plane of incidence of described second lens, when light is incident upon described mirror body from described first lens, described light reflexes to described second lens by described mirror body；

Optical fiber, described optical fiber includes the first end face and the second end face, and described first end face is corresponding to the side of described second exit facet of described second lens, and described optical fiber is for being conducted through the described light of described second lens；

Electric components, described electric components includes imageing sensor and mainboard, described imageing sensor electrically connects with described mainboard, described second end face of described optical fiber is attached at described imageing sensor, described imageing sensor is for transferring the described light of conduction to described second end face to the signal of telecommunication, and described mainboard is for being converted to data image signal by the described signal of telecommunication and processing.

Photographic head module the most according to claim 1, it is characterised in that

Described optical module also includes that infrared fileter, described infrared fileter are arranged between described first end face of described optical fiber and described second lens.

Photographic head module the most according to claim 2, it is characterised in that

Described default angle is right angle.

Photographic head module the most according to claim 3, it is characterised in that

Described mirror body is corner cube prism, and described corner cube prism includes the first right-angle surface and the second right-angle surface intersected, and described first lens correspond to described first right-angle surface, and described second lens correspond to described second right-angle surface.

Photographic head module the most according to claim 4, it is characterised in that

Described corner cube prism has the first facet, the cut plane formed of acute ends that described first facet intersects with the reflecting surface of described corner cube prism by described second right-angle surface；

Described second lens have the second facet, and the cut plane formed in one end that described second facet is described second lens, described second facet is in the same plane with described first facet.

Photographic head module the most according to claim 5, it is characterised in that

Described optical module also includes the first fixture for fixing described first lens and for fixing the second fixture of described second lens, described first fixture is pasted on described first right-angle surface of described corner cube prism, and described second fixture is pasted on described second right-angle surface of described corner cube prism；

The two sides of described infrared fileter is pasted on described first end face of described second fixture and described optical fiber respectively, and described second end face of described optical fiber is close to described imageing sensor.

Photographic head module the most according to claim 6, it is characterised in that

The profile of described first fixture and described second fixture is cubic shaped；

Described first lens are pasted in described first fixture by optical cement, and described second lens are pasted in described second fixture by optical cement；

Described first fixture, described corner cube prism, described second fixture, described infrared fileter, described optical fiber and described imageing sensor pass sequentially through optical cement and mutually paste.

Photographic head module the most as claimed in any of claims 1 to 7, it is characterised in that

Described first lens and described second lens are optical glass lens.

9. an electronic equipment, it is characterised in that including:

Housing, described housing includes Part I and Part II；

Photographic head module as claimed in any of claims 1 to 8 in one of claims, described optical module is arranged in described Part I, and described electric components is arranged in described Part II, and described optical fiber extends in described Part II from described Part I.

Electronic equipment the most according to claim 9, it is characterised in that

Described electronic equipment is notebook computer, and described Part I is the shell of the display module of described notebook computer, and described Part II is the shell of the host component of described notebook computer；

Being provided with camera aperture on the shell of described display module, described first lens are positioned in described camera aperture, and the shell of described display module is close to described optical module.