CN109798463A - Electronic device light emitting structure - Google Patents

Abstract

The present invention discloses a kind of electronic device light emitting structure, including a body part, a panel and a light emitting module；Body part has a supporting part, and an electronic building brick is arranged on supporting part, and the electronic building brick has an opening portion；Panel is set on supporting part and overlay electronic component, and there is the panel part panel cut out and the annular transparent area around the panel cut out, the panel cut out to be directed at the opening portion；Light emitting module is set between the back side of the panel and the electronic building brick, and the light emitting module includes a leaded light component and multiple luminescence components, and the leaded light component has a leaded light component aperture, and leaded light component aperture is directed at the panel cut out and the opening portion；Adjacent to the leaded light component, the light that multiple luminescence components generate can conduct via the leaded light component and go out from the annular transparent area transmission multiple luminescence components.

Description

Electronic device light emitting structure

Technical field

The present invention relates to a kind of electronic device light emitting structure, in particular to one kind is used in the classes such as mobile phone or handheld computer The electronic device light emitting structure of type electronic apparatus.

Background technique

Existing portable electric device would generally be provided with multiple display lamp numbers, the operation shape to display electronics assemblies The notice of state or various information.Such as: the states such as display lamp number of charging, news in brief notice and mode of operation.

The display lamp number of existing electronic device is usually that the light emitting structure as composed by multiple LED chips and light-guiding pillar is produced Raw, LED chip is set to the enclosure interior of electronic device, and one end of leaded light component is exposed to outside the shell or panel of electronic device Side, and the other end is connected to LED chip, therefore makes LED chip generate light by leaded light component and be shown in electronic device Hull outside or panel.

However the light emitting structure of existing electronic device usually can only generate dotted light signal, so that display The appearance of cresset is restricted, and is easy to be ignored because light area is small, causes operational inconvenience.

The disadvantage in existing electronic device light emitting structure use is caused due to above, therefore how to be changed by structure It is good, to solve the problems, such as aforementioned items, it has also become this cause one of the important topic to be solved.

Summary of the invention

Main purpose of the present invention is that light signal of different shapes can be generated by providing one kind, breaks through existing electronics dress The electronic device light emitting structure of dotted light limitation can be generated by setting display lamp number only.

The embodiment of the present invention provides a kind of electronic device light emitting structure, shines including a body part, a panel and one Module.One leading flank of the body part is provided with a supporting part, and an electronic building brick, the electronic building brick is arranged in the supporting part With an opening portion.The panel is set to the supporting part and the covering electronic building brick, the panel part have a panel Aperture and an annular transparent area around the panel cut out, the panel cut out are directed at the opening portion.The luminous mould Block is set between the back side of the panel and the electronic building brick, the light emitting module include a leaded light component and it is multiple shine Component, the area of the leaded light component at least covers the annular transparent area, and there is the leaded light component leaded light component to open Hole, the leaded light component aperture are directed at the panel cut out and the opening portion；Multiple luminescence components are led adjacent to described Optical assembly, the light that multiple luminescence components generate can be saturating from the annular transparent area via leaded light component conduction It penetrates.

One embodiment of the present invention, wherein the leaded light component is light guide sheet made of optical material, the leaded light group Part is generally in rectangular patch body, and the leaded light component has two incidence surfaces and a light-emitting surface, and two incidence surfaces are located at institute Leaded light component is stated in the two sides of an X direction of the electronic device, the light-emitting surface is located at the leaded light component described in The one side of panel；Multiple luminescence components are respectively arranged at position of the supporting part on the outside of two incidence surfaces It sets, and the light that multiple leaded light components generate is incident on inside the leaded light component from two incidence surfaces, and via The leaded light component conducts and transmits and go out from the light-emitting surface.

One embodiment of the present invention, wherein further including two anti-dazzling screens, two anti-dazzling screens are attached at the light-emitting surface In the position of the X direction two sides, the position that two anti-dazzling screens are covered in the light-emitting surface is located at the annular light transmission Outside of the area in the X direction two sides.

One embodiment of the present invention, anti-dazzling screen described in two of them respectively extend from the leaded light component in the horizontal axis The outer side edges of direction two sides, and two anti-dazzling screens are covered each by multiple luminescence components；The light-emitting surface is by two institutes The region for stating anti-dazzling screen covering is located at the annular transparent area in the outside of the X direction two sides.

One embodiment of the present invention, wherein the panel cut out and the leaded light component aperture are respectively generally and institute State the parallel elongated hole of X direction.

One embodiment of the present invention, wherein further including a double coated film, the double coated film has opposite two sides, Wherein one side is attached at the light-emitting surface of the leaded light component to the double coated film, and the double coated film is led relative to described The one side of optical assembly is attached at the back side of the panel, so as to the leaded light component to be fitted in the back side of the panel.

One embodiment of the present invention, wherein the position that the double coated film corresponds to the leaded light component aperture is provided with one Film aperture, the area of the film aperture are greater than the area of the panel cut out；The light-emitting surface of the leaded light component has Have one towards the position of the direction of panel lug boss outstanding, the position of the lug boss and shape and the film aperture And shape cooperates, when the double coated film fits in the light-emitting surface of the leaded light component, the lug boss is chimeric In in the film aperture.

One embodiment of the present invention, wherein the panel is a light transmission plate body, the panel has a lighttight screening Layer is covered, the shielding layer has the hollow-out parts being surrounded on the outside of the panel cut out, and the hollow-out parts and the panel are opened A spacing is kept between the edge in hole, and make the panel between the outer rim of the hollow-out parts inner edge and the panel cut out it Between region be not affected by shielding layer masking, and form the annular transparent area.

One embodiment of the present invention wherein the electronic building brick is a receiver, and is provided in the opening portion anti- The network of rivers.

Beneficial effects of the present invention, are can to show the light signal of annular on the panel of electronic device, and gram Take the limitation that existing electronic device light emitting structure is only capable of displaying dotted light signal.

Be further understood that feature and technology contents of the invention to be enabled, please refer to below in connection with it is of the invention specifically Bright and attached drawing, however Figure of description is only for reference and description, the person of being not intended to limit the present invention.

Detailed description of the invention

Fig. 1 is the Three-dimensional combination diagram of an electronic device with light emitting structure of the invention.

Fig. 2 is the perspective exploded view of an electronic device with light emitting structure of the invention.

The sectional perspective decomposition diagram of Fig. 3 electronic device light emitting structure of the present invention.

The floor map that Fig. 4 is taken for the panel that the present invention uses from the back side.

Fig. 5 is the combination diagrammatic cross-section of electronic device light emitting structure of the present invention.

Specific embodiment

It please refers to shown in Fig. 1 to Fig. 5, is the embodiment of the present invention, the present invention provides a kind of electronic device light emitting structure.It needs First illustrate, correlated measure mentioned by the present embodiment respective figure and external form, is only used to specifically describe reality of the invention Mode is applied, in order to understand the contents of the present invention, rather than is used to limit to protection scope of the present invention.

It as shown in Figure 1 to Figure 3, is an electronic device 1 with light emitting structure of the invention, the electronic device 1 has One body part 10, a panel 20 and a light emitting module 40.Wherein the body part 10 can be the casing or frame of electronic device 1 One front side of body, body part 10 has a supporting part 11.In more detail, the body part 10 can be a metal chassis or frame Body, the supporting part 11 be a recessed accommodating space in 10 leading flank of body part, the periphery of supporting part 11 form to The convergence part that the panel 20 is connected, the panel 20 can be arranged on the convergence part at 11 edge of supporting part, and pass through a little Panel 20 is fixed on supporting part 11 by glue or other technique for fixing means.One is formed between supporting part 11 and the back side of panel 20 Accommodating space, circuit substrate and various circuit devices is arranged.One electronic building brick 30 is set on the supporting part 11, this reality It applies in example, the electronic building brick 30 is a receiver (receiver), and the electronic building brick 30 has an opening portion 31, and And a waterproof net 32 is set in the opening portion 31, to prevent moisture from entering inside electronic building brick 30 from opening portion 31. The electronic device 1 can define a long axis direction and an X direction, and opening portion 31 described in the present embodiment is generally The elongated hole parallel with the X direction.

The panel 20 is set on the supporting part 11 of the body part 10, and is covered in the electronic building brick 30.Institute It states and is provided with a panel cut out 21 on panel 20 and one is surrounded on an annular transparent area 22 of 21 periphery of panel cut out. In the present embodiment, the position alignment of the panel cut out 21 is in the opening portion 31 of the electronic building brick 30, and the panel is opened The shape in hole 21 is similarly elongated hole generally parallel with the X direction of electronic device 1.

In more detail, the panel 20 can be the panel of the display screen of electronic device 1, as shown in figure 4, this implementation In example, the panel 20 is light transmission plate body made of strengthened glass, and the back side of the panel 20 is provided with a lighttight masking Layer 23, shielding layer 23 is surrounded on the periphery of a display area 24 of the panel 20, and shielding layer 23 has one to be surrounded on face One hollow-out parts 231 in 21 outside of plate aperture, keep a spacing between the hollow-out parts 231 and the edge of panel cut out 21, therefore So that the panel 20 between 231 inner edge of hollow-out parts and the outer rim of panel cut out 21 at position is not affected by the masking of shielding layer 23, And form the annular transparent area 22.The shielding layer 23 can be lighttight film or material layer, therefore panel 20 is hidden It covers the part that layer 23 is covered and forms impermeable light state, and the display area 24 that not shielded layer 23 covers and annular transparent area 22 Then become light-permeable state.One display screen module of the corresponding electronic device 1 in the display area 24 of the panel 20 is (in figure not Show), enable display screen module to generate light break-through and cross the display area 24 of panel 20, and light emitting module 40 generates Light can break-through cross the annular transparent area 22 of panel 20.

It illustrates, in the present embodiment, the shielding layer 23 is the back side that panel 20 is arranged in, but other implementations of the invention In example, 23 position of shielding layer is not limited to that the back side of panel 20 is arranged in.

As depicted in figs. 3 and 5, the light emitting module 40 is set between the back side of panel 20 and electronic building brick 30, and The position that light emitting module 40 is arranged correspond to the annular transparent area 22, and the light emitting module 40 includes: a leaded light component 41, multiple 42, two anti-dazzling screens 43 of luminescence component and a double coated film 44.Wherein, leaded light component 41 is attached at face by double coated film 44 The area at the back side of plate 20,41 cover plate of leaded light component, 20 back side at least covers annular transparent area 22.Multiple described luminous groups Part 42 is set to the position of neighbouring leaded light component 41 on supporting part 11, and the light that multiple luminescence components 42 generate is via leaded light The conduction of component 41 can transmit from annular transparent area 22 and be gone out, and annular transparent area 22 is made to form an annular illumination region, Leaded light component 41 has a leaded light component aperture 411, and the position of the leaded light component aperture 411 corresponds to the electronic building brick 30 The panel cut out 21 of opening portion 31 and the panel 20.

Leaded light component 41 described in the present embodiment of optical material by being made, more specifically, the leaded light component 41 Material preferably be select can be guide-lighting high molecular material, such as:: polycarbonate (PC), acryl, ABS resin, polyphenyl second One of materials such as alkene, silica gel or combinations thereof.The leaded light component aperture 411 is set on leaded light component 41, and guide-lighting group The shape of part aperture 411 is similar with the shape of opening portion 31 of panel cut out 21 and electronic building brick 30, and presents and electronics dress The 1 parallel elongated hole of X direction is set, and length of the leaded light component aperture 411 in X direction is generally opened with panel The length in hole 21 is close.As shown in figure 5, the opening portion 31 of the electronic building brick 30 and leaded light component aperture 411 and panel are opened Hole 21 is mutually aligned, therefore constitutes the interconnected channel of the opening portion 31 and 1 exterior space of electronic device, therefore such as Sound, gas can be transmitted to the opening portion 31 of electronic building brick 30 via panel cut out 21 and leaded light component aperture 411.

In the present embodiment, there are two incidence surface 414 and a light-emitting surface 415, two incidence surfaces 414 for the tool of leaded light component 41 Leaded light component 41 is arranged in the two sides of the X direction of electronic device 1, and the light-emitting surface 415 of leaded light component 41 is arranged at Towards the one side of panel 20.The light that multiple luminescence components 42 generate can enter from the incidence surface 414 of leaded light component 41 It is mapped in leaded light component 41, then via the conduction of leaded light component 41, then transmits and go out from light-emitting surface 415.

The double coated film 44, double coated film are provided between the light-emitting surface 415 of leaded light component 41 and the back side of panel 20 44 two sides are respectively provided with solid, and the solid of 44 two sides of double coated film fits in the back of panel 20 respectively The light-emitting surface 415 in face and leaded light component 41, therefore pass through the back side that leaded light component 41 is attached at panel 20 by double coated film 44.

Wherein, the position that double coated film 44 corresponds to leaded light component aperture 411 is provided with a film aperture 441, and film is opened The area in hole 441 is greater than the area of leaded light component aperture 411, so as to avoiding leaded light component aperture 411 from being covered by double coated film 44. In addition, with a lug boss 412 on the outside of leaded light component aperture 411, the protrusion on the light-emitting surface 415 of leaded light component 41 The direction of portion 412 towards panel 20 is protrusively provided on light-emitting surface 415, and lug boss 412 is far from 41 light-emitting surface of leaded light component The surface of side be capable of the annular transparent area 22 close to panel 20, the position of the lug boss 412 and shape and film aperture 441 position and shape cooperation, therefore when double coated film 44 fits in the light-emitting surface 415 of leaded light component 41,412 energy of lug boss It is enough embedded in the inside of film aperture 441, so as to the relative position of positioning double-sided film 44 and leaded light component 41.

In the present embodiment, the quantity of luminescence component 42 is two, and two luminescence components 42 are respectively light-emitting diodes Pipe, and two luminescence components 42 are respectively arranged at the supporting part 11 and are located at 41 two incidence surfaces of leaded light component, 414 outside Position.The light that two luminescence components 42 generate enters guide-lighting group from the incidence surface 414 of 41 two sides of leaded light component respectively Inside part 41, and via the conduction of 41 material of leaded light component, so that light is transmitted from the light-emitting surface 415 of leaded light component 41, so The annular transparent area 22 of panel 20 is crossed in break-through to the light projected afterwards from 41 light-emitting surface 415 of leaded light component again, so that annular is thoroughly Light area 22 becomes luminance.

The light emitting module 40 also has there are two anti-dazzling screen 43, to control the output optical zone domain of leaded light component 41, and hides The light of two luminescence components 42 is covered to reduce light leak condition.In the present embodiment, the light-emitting surface 415 of the leaded light component 41 is located at An anti-dazzling screen sticking part 413 is respectively set in the two sides of the X direction, is bonded with for two anti-dazzling screens 43, so that two The light-emitting surface 415 that a anti-dazzling screen 43 can be fitted in leaded light component 41 is located at the two sides of the X direction.It illustrates, The light-emitting surface 415 of leaded light component 41 is located at the annular transparent area 22 in the cross by the region that two anti-dazzling screens 43 cover The outside of axis direction two sides, therefore, so that the region that leaded light component 41 corresponds to annular transparent area 22 will not be by anti-dazzling screen 43 maskings.Extend in addition, the outside of two anti-dazzling screens 43 is respectively facing the direction far from leaded light component 41, and makes two shadings The outside of piece 43 respectively extends from leaded light component 41 in the outer side edges of X direction two sides, and covers two luminescence components 42. Therefore by two anti-dazzling screens 43, the optical range that goes out that can control leaded light component 41 is confined to and the corresponding area of annular transparent area 22 Domain, and two luminescence components 42 are covered, so as to reaching reduction light losing, luminous efficiency is improved, the technology of light leakage is avoided to imitate Fruit.

In conclusion beneficial effects of the present invention, being can be by the annular transparent area of leaded light component 41 and panel 20 22 cooperations, and one is formed around the annular luminous region around panel cut out 21, so that the display lamp number of electronic device 1 It is the form of cyclic annular light source by the form variation of point light source.And the structure for the leaded light component 41 that the present invention uses, has and face Plate aperture 21 and the corresponding leaded light component aperture 411 in electronic building brick opening portion 31, so that leaded light component 41 can be by Arrangement is set between electronic building brick 30 and panel 20, and will not cover opening portion 31 and the electronic device of electronic building brick 30 again The channel of 1 exterior space connection, so that light emitting structure of the invention can be arranged to be set to speaker voice giving hole, Mike On the positions such as sound hole, the sensor intercommunicating pore of wind.

It is of the invention the foregoing is merely preferable possible embodiments of the invention, right non-therefore that limitation is of the invention is wanted It asks, therefore all equivalence techniques variations done with description of the invention and accompanying drawing content, it is both contained in protection scope of the present invention It is interior.

Claims (9)

1. a kind of electronic device light emitting structure characterized by comprising

One body part, a leading flank of the body part are provided with a supporting part, and an electronic building brick is arranged in the supporting part, described Electronic building brick has an opening portion；

One panel, the panel is set to the supporting part and there is a panel to open for the covering electronic building brick, the panel part Hole and an annular transparent area around the panel cut out, the panel cut out are directed at the opening portion；And

One light emitting module, the light emitting module are set between the back side of the panel and the electronic building brick, the luminous mould Block includes a leaded light component and multiple luminescence components, and the area of the leaded light component at least covers the annular transparent area, and institute Leaded light component is stated with a leaded light component aperture, the leaded light component aperture is directed at the panel cut out and the opening portion；It is more For a luminescence component adjacent to the leaded light component, the light that multiple luminescence components generate can be via the guide-lighting group Part conducts and goes out from the annular transparent area transmission.

2. electronic device light emitting structure as described in claim 1, which is characterized in that the leaded light component is made of optical material Light guide sheet, the leaded light component is generally in rectangular patch body, and the leaded light component has two incidence surfaces and a light-emitting surface, two A incidence surface is located at the leaded light component in the two sides of an X direction of the electronic device, and the light-emitting surface is located at institute State one side of the leaded light component towards the panel；Multiple luminescence components are respectively arranged at the supporting part and are located at two institutes The position on the outside of incidence surface is stated, and the light that multiple leaded light components generate is incident on the leaded light from two incidence surfaces Component internal, and conducted via the leaded light component and transmit and go out from the light-emitting surface.

3. electronic device light emitting structure as claimed in claim 2, which is characterized in that further include two anti-dazzling screens, two screenings Mating plate is attached at the light-emitting surface in the position of the X direction two sides, and two anti-dazzling screens are covered in the light-emitting surface Position is located at the annular transparent area in the outside of the X direction two sides.

4. electronic device light emitting structure as claimed in claim 3, which is characterized in that two anti-dazzling screens respectively extend from institute Leaded light component is stated in the outer side edges of the X direction two sides, and two anti-dazzling screens are covered each by multiple described luminous groups Part；The light-emitting surface is located at the annular transparent area in the X direction two by the region that two anti-dazzling screens cover The outside of side.

5. electronic device light emitting structure as claimed in claim 2, which is characterized in that the panel cut out and the leaded light component Aperture is respectively elongated hole generally parallel with the X direction.

6. electronic device light emitting structure as claimed in claim 2, which is characterized in that it further include a double coated film, it is described two-sided Film has opposite two sides, and wherein one side is attached at the light-emitting surface of the leaded light component, institute to the double coated film The back side that double coated film is attached at the panel relative to the one side of the leaded light component is stated, so as to pasting the leaded light component Together in the back side of the panel.

7. electronic device light emitting structure as claimed in claim 6, which is characterized in that the double coated film corresponds to the guide-lighting group The position of part aperture is provided with a film aperture, and the area of the film aperture is greater than the area of the panel cut out；It is described to lead The light-emitting surface of optical assembly has one towards the direction of panel lug boss outstanding, the position of the lug boss and shape It cooperates with the position of the film aperture and shape, goes out light described in the leaded light component when the double coated film fits in When face, the lug boss is embedded in the film aperture.

8. electronic device light emitting structure as described in claim 1, which is characterized in that the panel is a light transmission plate body, described Panel has a lighttight shielding layer, and the shielding layer has the hollow-out parts being surrounded on the outside of the panel cut out, institute State and keep a spacing between hollow-out parts and the edge of the panel cut out, and make the panel between the hollow-out parts inner edge and Region between the outer rim of the panel cut out is not affected by the shielding layer masking, and forms the annular transparent area.

9. electronic device light emitting structure as described in claim 1, which is characterized in that the electronic building brick is a receiver, and The opening portion is provided with waterproof net.