CN110312010A - A kind of housing unit, electronic equipment and shell light-emitting control method - Google Patents
A kind of housing unit, electronic equipment and shell light-emitting control method Download PDFInfo
- Publication number
- CN110312010A CN110312010A CN201910568785.5A CN201910568785A CN110312010A CN 110312010 A CN110312010 A CN 110312010A CN 201910568785 A CN201910568785 A CN 201910568785A CN 110312010 A CN110312010 A CN 110312010A
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- Prior art keywords
- light
- housing unit
- emitting surface
- shell
- light source
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V33/00—Structural combinations of lighting devices with other articles, not otherwise provided for
- F21V33/0004—Personal or domestic articles
- F21V33/0052—Audio or video equipment, e.g. televisions, telephones, cameras or computers; Remote control devices therefor
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21V—FUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
- F21V7/00—Reflectors for light sources
- F21V7/22—Reflectors for light sources characterised by materials, surface treatments or coatings, e.g. dichroic reflectors
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/0206—Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K5/00—Casings, cabinets or drawers for electric apparatus
- H05K5/02—Details
- H05K5/0217—Mechanical details of casings
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K5/00—Casings, cabinets or drawers for electric apparatus
- H05K5/02—Details
- H05K5/0217—Mechanical details of casings
- H05K5/0243—Mechanical details of casings for decorative purposes
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- Engineering & Computer Science (AREA)
- Signal Processing (AREA)
- Microelectronics & Electronic Packaging (AREA)
- General Engineering & Computer Science (AREA)
- Multimedia (AREA)
- Non-Portable Lighting Devices Or Systems Thereof (AREA)
Abstract
This application involves mobile communication technology fields, specifically disclose a kind of housing unit, electronic equipment and shell light-emitting control method, the housing unit includes: shell, including main part and the first bending part and the second bending part that are oppositely arranged, the direction that first bending part and second bending part face away from the main part extends, and enclose and set to form an accommodating space, the shell has the outer surface being oppositely arranged and inner surface and connects the first light-emitting surface and the second light-emitting surface of the outer surface and the inner surface;Light source module group is arranged in the accommodating space;Wherein, the outer surface is diffusing reflection surface, and the light that the light source module group issues is incident to the enclosure interior from the inner surface, and projects from first light-emitting surface and second light-emitting surface.By the above-mentioned means, the application is able to ascend the appearance of housing unit, electronic equipment appearance competitiveness is promoted, homogeneity is avoided.
Description
Technical field
This application involves mobile communication technology fields, send out more particularly to a kind of housing unit, electronic equipment and shell
Light control method.
Background technique
With the development of communication technology, the electronic equipments such as smart phone are more more and more universal, and more and more electronics are set
The standby requirement to shape is also higher and higher.Existing casting of electronic device (such as shell of mobile phone, tablet computer) mostly uses aluminium to close
Gold and stainless steel cause the appearance of existing casting of electronic device to tend to homogeneity substantially.
Summary of the invention
Based on this, the application provides a kind of housing unit, electronic equipment and shell light-emitting control method, the application can
The appearance of housing unit is promoted, electronic equipment appearance competitiveness is promoted, avoids homogeneity.
On the one hand, this application provides a kind of housing units, comprising: shell, including main part and be oppositely arranged
Prolong in the direction that one bending part and the second bending part, first bending part and second bending part face away from the main part
It stretches, and encloses and set to form an accommodating space, the shell has the outer surface being oppositely arranged and inner surface and the connection appearance
First light-emitting surface and the second light-emitting surface in face and the inner surface;Light source module group is arranged in the accommodating space;Wherein, institute
Stating outer surface is diffusing reflection surface, and the light that the light source module group issues is incident to the enclosure interior from the inner surface, and
It is projected from first light-emitting surface and second light-emitting surface.
On the other hand, this application provides a kind of electronic equipment, electronic equipment includes display screen, housing unit and function
Circuit board, the housing unit are above-mentioned housing unit, and the function circuit board connects the shell by flexible circuit board
The light source of component, the inner surface of the housing unit are fixedly connected with the display screen.
Another aspect, this application provides a kind of shell light-emitting control method, this method is based on electronic equipment as the aforementioned
It realizes, method is the following steps are included: receive light emitting control instruction;Referred to by function circuit board according to the light emitting control received
Shining for control light source module group is enabled, so that the light of light source module group is projected from the first light-emitting surface and/or the second light-emitting surface, to realize
The different illumination effects of shell.
It is different from the prior art, the application is this characteristic of diffusing reflection surface using outer surface, is issued when light source module group
When light enters enclosure interior from inner surface and is irradiated on outer surface (diffusing reflection surface), diffusing reflection will be formed and to each side
To scattering, the light after scattering is emitted onto outer surface or inner surface.Irreflexive outer surface is generated at this time, is equivalent to a hair
The surface of light source of light.Wherein, the light for being irradiated to outer surface will form diffusing reflection again, and finally go out from the first light-emitting surface and second
Smooth surface projects.Therefore, the first light-emitting surface of housing unit and the second light-emitting surface provided by the present application can have the light effect of dazzle bright
Fruit, the visual effect of housing unit is more preferable, color is more abundant, more dazzle bright, is able to ascend the appearance of housing unit, mentions
Electronic equipment appearance competitiveness is risen, homogeneity is avoided.Meanwhile the application does not need to open up slit in shell rim, it can be in shell
The light-emitting surface at body edge observes the light that light source module group issues, and ensures the airtightness and fastness of shell.
Detailed description of the invention
In order to more clearly explain the technical solutions in the embodiments of the present application, make required in being described below to embodiment
Attached drawing is briefly described, it should be apparent that, the drawings in the following description are only some examples of the present application, for
For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other
Attached drawing.Wherein:
Fig. 1 is the disassemblying structure schematic diagram of the application housing unit;
Fig. 2 is first cross section structure schematic diagram in the face A-A in Fig. 1;
Fig. 3 is the structural schematic diagram of outer surface in Fig. 1;
Fig. 4 is second cross section structure schematic diagram in the face A-A in Fig. 1;
Fig. 5 is the third cross section structure schematic diagram in the face A-A in Fig. 1;
Fig. 6 is the 4th cross section structure schematic diagram in the face A-A in Fig. 1;
Fig. 7 is the structural schematic diagram of light source module group in Fig. 1;
Fig. 8 is the disassemblying structure schematic diagram of light source module group in Fig. 7;
Fig. 9 is the cross section structure schematic diagram in the face B-B in Fig. 7;
Figure 10 is the structural schematic diagram of heat dissipation film in Fig. 8;
Figure 11 is the partial structural diagram of one embodiment of the application electronic equipment
Figure 12 is the structural schematic diagram of another embodiment of the application electronic equipment;
Figure 13 is the cross section structure schematic diagram in the face C-C in Figure 11;
Figure 14 is another partial structural diagram of the application electronic equipment;
Figure 15 is the application shell light-emitting control method with the flow diagram of embodiment;
Figure 16 is the flow diagram of step S20 in Figure 15.
Specific embodiment
Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of embodiments of the present application, rather than whole embodiments.Based on this
Embodiment in application, those of ordinary skill in the art are obtained every other under the premise of not making creative labor
Embodiment shall fall in the protection scope of this application.
Inventors have found that current casting of electronic device generallys use aluminium alloy and stainless steel, sun is respectively adopted in surface
Metal effect is presented in pole oxidation and PVD, and such shell appearance processing method leads to the appearance of existing casting of electronic device
Substantially the problems such as tending to assimilation state.Therefore, the application provides a kind of housing unit.
Fig. 1 is the disassemblying structure schematic diagram of the application housing unit, and Fig. 2 is the first cross section structure signal in the face A-A in Fig. 1
Figure.
The housing unit 10 includes: shell 11 and light source module group 12.Shell 11 includes main part 111 and is oppositely arranged
The first bending part 112 and the second bending part 113, the first bending part 112 and the second bending part 113 face away from main part 111
Direction extend, and enclose and set to form an accommodating space 110, shell 11 has be oppositely arranged and inner surface 115 and connection outer
First light-emitting surface 116 and the second light-emitting surface 117 on surface 114 and inner surface 115.Light source module group 12 is arranged in accommodating space 110
It is interior.Wherein, outer surface 114 is diffusing reflection surface, and the light that light source module group 12 issues is incident in shell 11 from inner surface 115
Portion, and projected from the first light-emitting surface 116 and/or the second light-emitting surface 117.
Specifically, main part 111 is plane or cambered surface, i.e., the surface B of main part 111 as shown in the figures, the table
Face B can be plane, and the appearance of 2.5D thus can be formed with the first bending part 112 and the second bending part 113;Or table
Face B can be cambered surface (not shown), and the appearance of 3D thus can be formed with the first bending part 112 and the second bending part 113
Effect.The selection of 111 plane of main part perhaps cambered surface can be easy realization 2.5D or 3D design requirement, into
The performance of one step raising cambered shell 11.It should be understood that the shell 11 in present embodiment may be used as the battery cover of electronic equipment.
The material of main part 111 can be glass material, perhaps be that PET is perhaps resin or is ceramics, this implementation
This is not construed as limiting in mode.First bending part 112 and the second bending part 113 are symmetricly set on main part 111, the first bending
There is the first light-emitting surface 116 in portion 112, there is the second light-emitting surface 117, the light that light source module group 12 issues on the second bending part 113
Line is incident to inside shell 11 from inner surface 115, and is projected from the first light-emitting surface 116 and the second light-emitting surface 117.
It (is overflow anti-when the light that light source module group 12 issues enters 11 inside of shell from inner surface 115 and is irradiated to outer surface 114
Reflective surface) on when, will form diffusing reflection and scattered to all directions, the light after scattering is emitted onto outer surface 114 or interior table
Face 115.Irreflexive outer surface 114 is generated at this time, is equivalent to a luminous surface of light source.Wherein, it is irradiated to outer surface 114
Light will form diffusing reflection again, and finally project from the first light-emitting surface 116 and/or the second light-emitting surface 117.Wherein, at this
In the process, light passes through multiple reflections, can effectively prevent the generation of dazzle.
It is different from the prior art, present embodiment is this characteristic of diffusing reflection surface using outer surface 114, works as light source module group
When 12 light issued enter 11 inside of shell and be irradiated on outer surface 114 (diffusing reflection surface) from inner surface 115, it will be formed
Diffusing reflection and scattered to all directions, the light after scattering is emitted onto outer surface 114 or inner surface 115.It generates at this time unrestrained anti-
The outer surface 114 penetrated is equivalent to a luminous surface of light source.Wherein, the light for being irradiated to outer surface 114 will be formed again to be overflow instead
It penetrates, and is finally projected from the first light-emitting surface 116 and/or the second light-emitting surface 117.Therefore, housing unit 10 provided by the present application
One light-emitting surface 116 and the second light-emitting surface 117 can have the lighting effects of dazzle bright, and the visual effect of housing unit 10 is more preferable, face
Color is more abundant, more dazzle bright, is able to ascend the appearance of housing unit 10, promotes electronic equipment appearance competitiveness, avoid
Homogeneity.Meanwhile the application is not needed in 11 edge slit of shell, can observe light in the light-emitting surface at 11 edge of shell
The light that source mould group 10 issues ensures the airtightness and fastness of shell 11.
Fig. 3 is the structural schematic diagram of outer surface in Fig. 1, and in one embodiment, diffusing reflection surface 114 includes multiple bumps
Point, and multiple sags and crests are evenly arranged on outer surface 114.
Specifically, in order to promote the appearance of housing unit 10, the diffusing reflection surface 114 in present embodiment can be
AG film plating layer.Since the light transmittance of AG film plating layer is higher, and granular sensation is unobvious, therefore can ensure shell using AG film plating layer
The appearance of component 10.Simultaneously as AG film plating layer is arranged on the outer surface 114 of shell 11 by way of plated film,
Therefore the thickness of AG film plating layer is smaller, so that the thickness of shell 11 is smaller, and then reduces the thickness of housing unit 10;And
And since AG film plating layer is not necessarily to be fitted on the outer surface 114 of shell 11 by other fittings medium (such as OCA glue), to drop
Low cost.In the present embodiment, in order to enhance the display effect of shell 11, AG film plating layer includes multiple sags and crests, and
Multiple sags and crests are evenly arranged on AG film plating layer.Since multiple sags and crests are evenly arranged on AG film plating layer, so that AG film plating layer is unrestrained anti-
Better effect is penetrated, so that the display effect of shell 11 is more preferably;Further, since multiple sags and crests are evenly arranged on AG film plating layer,
So that the display effect of each region of shell 11 is consistent.
Fig. 4 is second cross section structure schematic diagram in the face A-A in Fig. 1, and in one embodiment, shell 11 is transparent cover body.
Wherein, it is provided with reflection enhancing coating 13 on the outer surface 114 of shell 11, the light for issuing light source module group 12 reflexes to shell
Inside 11.
Specifically, 11 ontology of shell in present embodiment can be 11 ontology of transparent shell, 11 ontology of transparent shell
Material can be glass material, be perhaps that PET is perhaps resin or is ceramics, be not construed as limiting in present embodiment to this.
Reflection enhancing coating 13 is for reflexing to the light that light source module group 12 issues inside shell 11.When light source module group 12 issue light from
When inner surface 115 enters 11 inside of shell and is irradiated on reflection enhancing coating 13, reflection enhancing coating 13 reflects light, and light will irradiate
To outer surface 114 or inner surface 115.Wherein, the light for being irradiated to outer surface 114 will be reflected again, and finally be gone out from first
Smooth surface 116 and the second light-emitting surface 117 project.
In one embodiment, above-mentioned reflection enhancing coating 13 is the coat of metal 13.Wherein, the material of the coat of metal 13 be silver,
At least one of aluminium, copper, gold or zinc.
Specifically, reflection enhancing coating 13 is the coat of metal 13, and the coat of metal 13 can be silver coating, aluminium coated, copper plate, plating
Layer gold or zinc coat can increase emergency light reflex, effectively prevent light leakage.
In one embodiment, above-mentioned reflection enhancing coating 13 is reflectance coating 13, the refractive index and reflectance coating of outer surface 114
13 specific refractivity is more than or equal to 0.4.
Specifically, reflectance coating 13 can contain hollow granule, and the refractive index of hollow granule is more than or equal to 1.650.It is hollow
Shape of particle is preferred spherical or oval, and it is silica, aluminium oxide, titanium oxide, oxidation that hollow granule, which can be glass microballoon,
It is prepared by the mixture of one or more of zinc, magnesia, calcium oxide, barium monoxide, zirconium oxide, strontium oxide strontia, boron oxide, tellurium oxide
It forms, wherein it is preferred that several is mixed with.
It is different from the prior art, present embodiment is by being arranged the reflection containing hollow granule in the outer surface of shell 11 114
Coating 13 increases reflecting interface and refractive index difference, and then improves reflectivity.
Fig. 5 is the third cross section structure schematic diagram in the face A-A in Fig. 1.In one embodiment, have inside above-mentioned shell 11
Light guide structure 14, one end of light guide structure 14 connect inner surface 115, and the first light-emitting surface of other end connection 116 and/or second goes out light
Face 117, light guide structure 14 be used for the light that issues light source module group 12 from the conduction of inner surface 115 to the first light-emitting surface 116 and/or
Outside second light-emitting surface 117.
In one embodiment, above-mentioned light guide structure 14 is the light-guiding pillar 141 being embedded in inside shell 11.Wherein, guide-lighting
The light inputting end 1411 of column 141 connects inner surface 115, and the light end 1412 that goes out of light-guiding pillar 141 connects the first light-emitting surface 116 and/or the
Two light-emitting surfaces 117, the light that light source module group 12 issues import in light-guiding pillar 141 via light inputting end 1411, and go out light end 1412 certainly
Outside conduction to the first light-emitting surface 116 and/or the second light-emitting surface 117.
Wherein, the light-guiding pillar 141 in above embodiment is the fiber optic bundle of multifiber composition.
Specifically, light-guiding pillar 141 is embedded on 11 inside of shell.Setting is used for the leaded light of conduction light inside shell 11
Column 141.Wherein, light-guiding pillar 141 can be the fiber optic bundle of multifiber composition.One end of fiber optic bundle connects inner surface 115, another
End connection the first light-emitting surface 116 and/or the second light-emitting surface 117, fiber optic bundle can will conduct most of light conduction and go out light to first
Outside face 116 and the second light-emitting surface 117.In order to avoid light leakage, the outer surface of light-guiding pillar 141 can be opaque surface.
Fig. 6 is the 4th cross section structure schematic diagram in the face A-A in Fig. 1, and in one embodiment, above-mentioned light guide structure 14 is to pass through
The light-conductive hole 142 being through inside shell 11.Wherein, the inner wall of light-conductive hole 142 is provided with reflectance coating 1421, and light source module group 12 issues
Light pass through the reflection of reflectance coating 1421, project and conducted to the first light-emitting surface 116 and/or second from light-conductive hole 142 and go out light
Outside face 117.
Specifically, the inner wall of light-conductive hole 142 is provided with reflectance coating 1421, so as to by light conduction to the first light-emitting surface
116 and/or second outside light-emitting surface 117, and the material of reflectance coating 1421 can be at least one of silver, aluminium, copper, gold or zinc.
Fig. 7 is the structural schematic diagram of light source module group in Fig. 1, and Fig. 8 is the disassemblying structure schematic diagram of light source module group in Fig. 7, Fig. 9
It is the cross section structure schematic diagram in the face B-B in Fig. 7, Figure 10 is the structural schematic diagram of heat dissipation film in Fig. 8.In one embodiment, on
Stating light source module group 12 includes: light guiding film 121, diffusion barrier 122, reflective membrane 124 or light source 123.Light guiding film 121 includes opposite sets
The third light-emitting surface of the first side 1211 and second side 1212 and connection first side 1211 and second side 1212 set
1213, wherein third light-emitting surface 1213 is arranged towards inner surface 115.Light guide plate is arranged in close to the one of shell 11 in diffusion barrier 122
Side.Side of the light guiding film 121 far from diffusion barrier 122 is arranged in reflective membrane 124.The light-emitting surface of light source 123 is towards first side
1211 and/or second side 1212 be arranged so that the light that light source 123 issues is from first side 1211 and/or second side
1212 conduct to third light-emitting surface 1213, and from the conduction of third light-emitting surface 1213 to inner surface 115.
Specifically, light source module group 12 includes diffusion barrier 122, light guiding film 121, light source 123, reflective membrane 124.Diffusion barrier 122,
Optics glue can be used between light guiding film 121 and reflective membrane 124, optical cement can be pasted onto diffusion barrier 122, light guiding film
121 are clipped between shell 11 and light guiding film 121 respectively with the surrounding of reflective membrane 124, diffusion barrier 122, and light source 123 can fix peace
Loaded on 121 top surface of light guiding film.Light source 123 can be light emitting diode (Light-EmittingDiode, LED).
In one embodiment, above-mentioned light source module group 12 further include: flexible circuit board 125, stiffening plate 126 and heat dissipation film
127.Flexible circuit board 125 and light source 123 are electrically connected.Flexible circuit board 125 is arranged in far from light source 121 in stiffening plate 126
Side.Side of the reflective membrane 124 far from light guiding film 122 is arranged in heat dissipation film 127.Wherein, heat dissipation film 127 has a bending part
128, bending part 128 covers stiffening plate 126, flexible circuit board 125 and light source 123 so that the heat of light source 123 passes through flexibility
Circuit board 125 and stiffening plate 126 are transmitted on heat dissipation film 127.
Specifically, flexible circuit board 125 can be electrically connected by epoxide-resin glue 129 and light source 123.Reflective membrane 124
It is clipped between light guiding film 122 and heat dissipation film 127, heat dissipation film 127 can have the graphite linings of light-blocking function.Further, it radiates
Film 127 can also be flexible compound heat dissipation film 127.The flexible compound heat dissipation film 127 includes: buffer layer 1271, heat dissipating layer 1272
And shielded layer 1273, heat dissipating layer 1272 are set to the side of buffer layer 1271, and bending gap is provided on heat dissipating layer 1272;
Shielded layer 1273 is set to side of the heat dissipating layer 1272 far from buffer layer 1271.The heat dissipation when bending part 128 is bent as a result,
Layer 1272 will not because of itself the reasons such as more fragile or not resistant to bending and there is the phenomenon that embrittlement, and then would not also influence it
Heat dissipation effect;Shielded layer 1273 has preferable effectiveness;The setting of buffer layer 1271 can buffer inside and outside impact again
Power.I.e. the flexible compound heat dissipation film 127 effective for electronic device, can not only buffer the inside and outside portion punching of electronic device
Power is hit, there is splendid heat-sinking capability and electro-magnetic screen function, also there is good bending performance, it is more frivolous.Wherein, bending part
128 covering stiffening plates 126, flexible circuit board 125 and light source 123 are so that the heat of light source 123 passes through 125 and of flexible circuit board
Stiffening plate 126 is transmitted on heat dissipation film 127.
Figure 11 is the partial structural diagram of one embodiment of the application electronic equipment, and Figure 12 is that the application electronic equipment is another
The structural schematic diagram of one embodiment.Figure 13 is the cross section structure schematic diagram in the face C-C in Figure 11, and Figure 14 is the application electronic equipment
Another partial structural diagram.The application provides a kind of electronic equipment 100, and electronic equipment 100 includes display screen 101, shell
Component 102 and function circuit board 103, housing unit 102 are the housing unit 102 in above embodiment, function circuit board
103 connect the light source 123 of housing unit 102 by flexible circuit board 125.
Wherein, the inner surface 115 of housing unit 102 is fixedly connected with display screen 101, and the first of housing unit 102 goes out
The display surface of smooth surface 116 and the second light-emitting surface 117 and display screen 101 may be at same plane.At this point, the first light-emitting surface 116
The preposition soft light taken pictures is also used as with the light of the second light-emitting surface 117.In other embodiments, the first light-emitting surface
116 and second the light of light-emitting surface 117 can also be used as the light efficiency lamp of cell rear cover, realize that 100 complete machine of electronic equipment shines effect
Fruit.
Specifically, it after display screen 101 is mounted on housing unit 102, is formed between housing unit 102 and display screen 101
Storage space, storage space can store device of electronic equipment 100, such as function circuit board 103, battery etc..Functional circuit
Plate 103 is mounted in housing unit 102, and function circuit board 103 may be mounted on center, and function circuit board 103 can pass through
Screw is screwed on center, card can also be fitted on center by the way of buckle.It should be noted that the embodiment of the present application function
Can circuit board 103 be specifically not limited to this fixed to the mode on center, can also be other way, for example pass through buckle and spiral shell
The mode that nail is fixed jointly.Function circuit board 103 can be between center and shell.Function circuit board 103 can be electronics
It is total to have can integrate motor, microphone, loudspeaker, earphone interface, general serial in function circuit board 103 for the mainboard of equipment 100
One in the function elements such as line interface, camera, range sensor, ambient light sensor, receiver and processor or
It is multiple.
The electronic equipment 100 that present embodiment provides, comprising: mobile phone, computer, digital camera, single-lens reflex camera, MP3, MP4, MP5
Deng the electronic equipment 100 for carrying LOGO.Above-mentioned electronic equipment 100 is only citing, and non exhaustive, including but not limited to above-mentioned electronics
Equipment 100.
In one embodiment, electronic equipment 100 can also include battery component 104, and battery component 104 is used to be light source
Mould group 12 provides power supply, and battery component 104 includes: battery 1041 and battery protecting plate 1042, battery protecting plate 1042 and shell
The enclosure body of body forms accommodating space, and light source module group 12 is housed in accommodating space.
Specifically, battery 1041 may be mounted in housing unit 102, and battery 1041 may be mounted on center, battery
1041 can be between center and shell, and shell can be used as battery cover, and shell can cover battery 1041 to protect battery
1041, reduce collision of the battery 1041 due to electronic equipment 100, the damage falling etc. and be subject to.Battery 1041 can be with function
Circuit board 103 is electrically connected, to provide power supply to electronic equipment 100.
Due to complete machine finite thickness system, and the thickness of usually light source module group 12 is larger, in order to reduce the thickness of light source module group 12
Degree influences complete machine thickness bring, and battery protecting plate 1042 and shell 11 form accommodating space, and light source module group 12 can accommodate
In accommodating space.
Figure 15 is the application shell light-emitting control method with the flow diagram of embodiment, and this method is based on above-mentioned implementation
The electronic equipment realization of mode, method includes the following steps:
S10: light emitting control instruction is received.
Specifically, light emitting control instruction can be obtained by receiving user gesture, or to preset in electronic equipment
Shell shine instruction.
When user needs the light source module group using electronic equipment, user can be by clicking preset icon, clicking and preset
Region, pressing programmable button etc. operate the enabled instruction that starting light source module group is inputted to electronic equipment, and electronic equipment will test
The enabled instruction for starting light source module group, responds enabled instruction later, and starting light source module group emits optical signal.Wherein, optical signal is
Refer to the brightness of light and/or the range of exposures of light.
S20: by function circuit board shining according to the light emitting control instruction control light source module group received, so that light source
The light of mould group is projected from the first light-emitting surface and/or the second light-emitting surface, to realize the different illumination effects of shell.
Specifically, opening or closing for light source module group is controlled, it is possible to further control the luminescent color of light source module group.
Wherein it is possible to which instructing control light source module group according to light emitting control is to be always on mode or breathing pattern.
It is different from the prior art, the application is this characteristic of diffusing reflection surface using outer surface, is issued when light source module group
When light enters enclosure interior from inner surface and is irradiated on outer surface (diffusing reflection surface), diffusing reflection will be formed and to each side
To scattering, the light after scattering is emitted onto outer surface or inner surface.Irreflexive outer surface is generated at this time, is equivalent to a hair
The surface of light source of light.Wherein, the light for being irradiated to outer surface will form diffusing reflection again, and finally go out from the first light-emitting surface and second
Smooth surface projects.Therefore, the first light-emitting surface of housing unit and the second light-emitting surface provided by the present application can have the light effect of dazzle bright
Fruit, the visual effect of housing unit is more preferable, color is more abundant, more dazzle bright, is able to ascend the appearance of housing unit, mentions
Electronic equipment appearance competitiveness is risen, homogeneity is avoided.
Figure 16 is the flow diagram of step S20 in Figure 15, and electronic equipment further comprises light sensor, step S20
Include:
S201: start the camera function of electronic equipment.
Specifically, start the camera function of the front camera of electronic equipment.
S202: being detected by environment light of the light sensor to electronic equipment local environment, obtains current environment light
Intensity value.
Specifically, when user is opened using electronic equipment, user can be utilized by the application triggers being mounted on
Light sensor senses current environment brightness to obtain the environmental light intensity value of current environment.Electronic equipment can also be with when opening
To ambient brightness acquisition request is sent, triggering obtains the environmental light intensity value of current environment.
Current environment refers to same environment locating for electronic equipment, for example, electronic equipment is in parlor space or sleeping
The light of room space, parlor space or space of bedroom can be only available light, also may include available light and illumination light
Line can also include the light that available light, illuminating ray and electronic equipment are issued.
S203: according to current environment light intensity value, the light filling brightness value of predeterminable area in interface of taking pictures is determined.
Wherein, current environment light intensity value is smaller, then light filling brightness value is bigger.
Specifically, it is known that, environmental light intensity angle value is smaller, then shows light than darker, taking the photographic quality come can also compare
It is poor, it needs to carry out light filling at this time.It is above-mentioned according to current environment light intensity value, determine that the light filling of predeterminable area in interface of taking pictures is bright
Angle value specifically can be, and according to current environment light intensity value, determine the light filling brightness value in light filling region.Light filling brightness value with work as
The basic principle followed between preceding environment light intensity value is: current environment light intensity value is smaller, then light filling brightness value is bigger, from
And light filling brightness value is dynamically adjusted according to the size of current environment light intensity value.
S204: control light source module group carries out light filling with light filling brightness value.
In the present embodiment, the predeterminable area that can be taken pictures by control in interface is carried out with identified light filling brightness value
Light filling, therefore it can be irradiated to the object including user face from the light that predeterminable area is issued in interface of taking pictures,
The brightness for promoting object, to realize light filling.
In above embodiment, after the camera function in starting electronic equipment, by electronic equipment local environment
Environment light is detected, and current environment light intensity value is obtained, and according further to above-mentioned current environment light intensity value, determination is taken pictures
The light filling brightness value of predeterminable area in interface, and meet that above-mentioned current environment light intensity value is smaller, then light filling brightness value is bigger,
Then control predeterminable area of taking pictures in interface with above-mentioned light filling brightness value carries out light filling, and the camera in controlling electronic devices is caught
Image is caught, and generates photo.Implement the embodiment of the present invention, is preset in the interface that can be taken pictures according to environmental light intensity angle value dynamic regulation
The light filling brightness value in region, improves the shooting quality of photo.
The foregoing is merely presently filed embodiments, are not intended to limit the scope of the patents of the application, all to utilize this
Equivalent structure or equivalent flow shift made by application specification and accompanying drawing content, it is relevant to be applied directly or indirectly in other
Technical field similarly includes in the scope of patent protection of the application.
Claims (14)
1. a kind of housing unit characterized by comprising
Shell, including main part and the first bending part and the second bending part that are oppositely arranged, first bending part and described
The direction that second bending part faces away from the main part extends, and encloses and set to form an accommodating space, and the shell has opposite
The outer surface of setting and inner surface and the first light-emitting surface and the second light-emitting surface for connecting the outer surface and the inner surface;
Light source module group is arranged in the accommodating space;
Wherein, the outer surface is diffusing reflection surface, and the light that the light source module group issues is incident to described from the inner surface
Enclosure interior, and projected from first light-emitting surface and/or second light-emitting surface.
2. housing unit according to claim 1, which is characterized in that
The diffusing reflection surface includes multiple sags and crests, and multiple sags and crests are evenly arranged on the outer surface.
3. housing unit according to claim 1, which is characterized in that
The shell is transparent cover body;
It is provided with reflection enhancing coating on the outer surface, the light for issuing the light source module group reflexes in the shell
Portion.
4. housing unit according to claim 3, which is characterized in that
The reflection enhancing coating is the coat of metal.
5. housing unit according to claim 4, which is characterized in that
The material of the coat of metal is at least one of silver, aluminium, copper, gold or zinc.
6. housing unit according to claim 3, which is characterized in that
The reflection enhancing coating is reflectance coating, and the specific refractivity of the refractive index of the outer surface and the reflectance coating is greater than etc.
In 0.4.
7. housing unit according to claim 1, which is characterized in that the enclosure interior has light guide structure, described to lead
One end of photo structure connects the inner surface, and the other end connects first light-emitting surface and/or second light-emitting surface, described to lead
Photo structure is used to from the inner surface conduct light that the light source module group issues to first light-emitting surface and/or described the
Outside two light-emitting surfaces.
8. housing unit according to claim 7, which is characterized in that
The light guide structure is the light-guiding pillar for being embedded in the enclosure interior;
Wherein, the light inputting end of the light-guiding pillar connects the inner surface, and the light end connection described first that goes out of the light-guiding pillar goes out light
Face and/or second light-emitting surface, the light that the light source module group issues import in the light-guiding pillar via the light inputting end, and
It conducts from the light end out to outside first light-emitting surface and/or second light-emitting surface.
9. housing unit according to claim 8, which is characterized in that
The light-guiding pillar is the fiber optic bundle of multifiber composition.
10. housing unit according to claim 7, which is characterized in that
The light guide structure is the light-conductive hole for being applied in the shell, and the inner wall of the light-conductive hole is provided with reflectance coating;
Wherein, the light that the light source module group issues passes through the reflection of the reflectance coating, projected from the light-conductive hole and conduct to
Outside first light-emitting surface and/or second light-emitting surface.
11. housing unit according to claim 1, which is characterized in that the light source module group includes:
Light guiding film including the first side and second side that are oppositely arranged and connects the first side and described second side
The third light-emitting surface on side, wherein the third light-emitting surface is arranged towards the inner surface;
The light guide plate is arranged in close to the side of the shell in diffusion barrier;
Side of the light guiding film far from the diffusion barrier is arranged in reflective membrane;
The light-emitting surface of light source, the light source is arranged towards the first side and/or the second side, so that the light source is sent out
Light out conducts to the third light-emitting surface from the first side and/or the second side, and goes out light from the third
It conducts to the inner surface in face.
12. a kind of electronic equipment, which is characterized in that including display screen, housing unit and function circuit board, the housing unit
For housing unit as described in any one of claim 1 to 11, the function circuit board connects the shell by flexible circuit board
The light source module group of body component, the inner surface of the housing unit are fixedly connected with the display screen.
13. a kind of shell light-emitting control method, which is characterized in that the method is based on electronic equipment as claimed in claim 12
It realizes, the described method comprises the following steps:
Receive light emitting control instruction;
By function circuit board shining according to the light emitting control instruction control light source module group received, so that the light source
The light of mould group is projected from first light-emitting surface and/or second light-emitting surface, to realize the different illumination effects of shell.
14. according to the method for claim 13, which is characterized in that the electronic equipment further comprises light sensor,
It is described to include: according to the luminous step of the light emitting control instruction control light source module group received by function circuit board
Start the camera function of electronic equipment;
It is detected by environment light of the light sensor to the electronic equipment local environment, obtains current environment light intensity
Angle value;
According to the current environment light intensity value, the light filling brightness value of predeterminable area in interface of taking pictures is determined, wherein described current
Environmental light intensity angle value is smaller, then the light filling brightness value is bigger;
It controls the light source module group and light filling is carried out with the light filling brightness value.
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CN201910568785.5A CN110312010B (en) | 2019-06-27 | 2019-06-27 | Shell assembly, electronic equipment and shell light-emitting control method |
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CN201910568785.5A CN110312010B (en) | 2019-06-27 | 2019-06-27 | Shell assembly, electronic equipment and shell light-emitting control method |
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