CN106152025A - Lamp bar and the illuminator of application thereof - Google Patents

Abstract

The lamp bar of the present invention and the illuminator of application thereof, be provided with at least one light emitting diode on a transparency carrier, separately has a protective layer transparency carrier and each light emitting diode to be coated with, is coated with a fluorescence coating in protective layer periphery, is coated with an even photosphere in fluorescence coating periphery.Thus a kind of lamp bar producing 360 degree of light-out effect of omnidirectional can be obtained, and make its illuminator applied further, can even continue to use the commodity kenel of bulb moulding with lamp plate, lamp group and present.

Description

Lamp bar and the illuminator of application thereof

Technical field

The present invention, about a kind of lamp bar and the illuminator of application thereof, particularly relates to the light emitting diode illuminating apparatus of a kind of light-emitting diode light bar and application thereof.

Background technology

Pressing, light emitting diode (Light Emitting Diode, LED) is the semiconductor element of a kind of light converting the current to particular range of wavelengths；Light emitting diode is high with its brightness, running voltage is low, power consumption is little, easily mate with integrated circuit, drive the advantages such as simple, life-span length, thus can be widely used in lighting field as light source.

Wherein, a kind of light-emitting component linearly arranged by light emitting diode of light-emitting diode light bar, owing to making easy, low cost, therefore its application little by little extension is come；Substrate that existing light-emitting diode light bar mainly includes a strip and a plurality of light emitting diodes being installed on substrate, these a plurality of light emitting diodes are attached at the surface of substrate, make to obtain a kind of light-emitting diode light bar having predetermined length specification.

Furthermore, the substrate that conventional light emitting diodes lamp bar is used, consist predominantly of aluminium base and copper clad laminate；In use time, single light-emitting diode light bar can be installed on applied equipment, or and by quantity not wait light-emitting diode light bar concatenate after, to increase the length of light source.

But, similar existing light-emitting diode light bar is only capable of being provided with the mode that straight line installs and uses, and is limited to light emitting diode and is installed on the structure design that substrate is unilateral so that it is light source is only capable of irradiating towards single direction, and irradiating angle is relatively limited, it is impossible to effectively promote its range.

Summary of the invention

The main object of the present invention, is i.e. providing a kind of lamp bar producing omni-directional light source radiation response, and the illuminator of its application.

In order to achieve the above object, the lamp bar of the present invention, consist essentially of: a transparency carrier, for having the flexible base plate of light transmission；At least one light emitting diode, is fixedly arranged on this transparency carrier through at least one conducting film；One protective layer, is coated on this transparency carrier relatively and each light emitting diode is peripheral, by the plastifying material hardened forming of tool light transmission；One fluorescence coating, is made up of the fluorescent material being relatively covered in this protective layer peripheral；One even photosphere, is coated on this fluorescence coating peripheral relatively, by the plastifying material hardened forming of tool light transmission.

Utilize above-mentioned technical characteristic; the lamp bar of the present invention is in time using; can pass through conducting film and connect power supply; when the current lead-through of light emitting diode; can be under the assosting effect of fluorescence coating and even photosphere; make the light source of light emitting diode towards the all-round periphery of protective layer to external exposure, make the isotropic 360 degree of light-out effect of generation.

According to above-mentioned technical characteristic, described lamp bar is coated with a printing opacity material in this even photosphere periphery.

According to said structure feature, described lamp bar is installed with at least one light electric energy element converting light energy into electric energy in this even photosphere periphery.

According to said structure feature, described lamp bar is installed with at least one thermoelectric power element converting thermal energy into electric energy in this even photosphere periphery.

According to said structure feature, described lamp bar is installed with at least one light electric energy element converting light energy into electric energy in this even photosphere periphery, and at least one thermoelectric power element converting thermal energy into electric energy.

According to said structure feature, described lamp bar is installed with at least one light electric energy element converting light energy into electric energy in this even photosphere periphery, and at least one thermoelectric power element converting thermal energy into electric energy, it is provided with one in this even photosphere periphery by this even photosphere, total light electric energy element, the printing opacity material of total thermoelectric power element cladding.

Described each conducting film is the stannum indium oxide of tool light transmission.

Described each light emitting diode is that semiconductor crystal wafer cuts grain.

Described transparency carrier material can be chosen as gallium nitride base board or sapphire substrate one of them.

Described protective layer is by silica gel hardened forming.

Described even photosphere adds fluorescent material.

Described even photosphere is by silica gel hardened forming.

Described each light emitting diode passes through wafer bonding (Wafer Bonding) die bond on this transparency carrier or without substrate package (None substrate package)。

Above-mentioned wafer bonding (Wafer Bonding) can be Direct Bonding (direct bonding) or glued (Glue bonding) one of them, Direct Bonding (direct bonding) is with flip (Flip Chip Bonding), and eutectic (Eutectic Bonding) die bond encapsulating structure is with metal keyed jointing (Metal bonding) or anode linkage (anodic bonding).

Described then it is bonded with electrically conducting transparent film wire (ITO film FPC stannum indium oxide reelability substrate) with Direct Bonding (direct bonding) without substrate package (None substrate package)

Described printing opacity material can be chosen as glass or silicon one of them.

The illuminator that disclosed herein, has consisted essentially of: a lamp socket；At least one lamp bar, it is located on this lamp socket, each lamp bar is provided with at least one light emitting diode on a transparency carrier, each light emitting diode is fixedly arranged on this transparency carrier through at least one conducting film, separately it is coated with one by the protective layer of the plastifying material hardened forming of light transmission in this transparency carrier and each light emitting diode periphery, in the fluorescence coating that this bag sheath periphery cladding one is made up of fluorescent material, in this fluorescence coating periphery cladding one by the even photosphere of the plastifying material hardened forming of light transmission, it is installed with at least one light electric energy element converting light energy into electric energy in this even photosphere periphery, and at least one thermoelectric power element converting thermal energy into electric energy；One controls module, and each light emitting diode, each smooth electric energy element, the electrical connection of each thermoelectric power element, for connecting power supply produced by external power source and each smooth electric energy element, each thermoelectric power element, and whether controls the current lead-through of each light emitting diode.

Utilize above-mentioned technical characteristic, obtain a kind of illuminator that can be produced 360 degree of light-out effect of omnidirectional by lamp bar, and under the integrating operation controlling module and each smooth electric energy element, each thermoelectric power element, luminous energy produced by luminous disome and energy recovery can be converted into the electric energy needed for supply illuminator running.

According to above-mentioned technical characteristic, described illuminator is provided with least one set lamp bracket in this lamp socket, is provided with at least one lamp bar in each lamp bracket.

According to above-mentioned technical characteristic, described illuminator is further provided with the electric power storage module of one and the electrical connection of this control circuit.

According to above-mentioned technical characteristic, described illuminator is further provided with the electric power storage module of one and the electrical connection of this control circuit；And, it is provided with least one set lamp bracket in this lamp socket, is provided with at least one lamp bar in each lamp bracket.

According to above-mentioned technical characteristic, described each lamp bar is provided with one by this even photosphere, total light electric energy element, the printing opacity material of total thermoelectric power element cladding in this even photosphere periphery.

Described printing opacity material can be chosen as glass or silicon one of them.

Described each lamp bar is around in loop shaped.

Described each lamp bar is around in the shape of a spiral.

Described control module is made up of a start unit, a detecting unit, a computing unit, a compensating unit, a wireless signal reception unit, a voltage regulation unit electrical connection.

Specifically, the lamp bar that disclosed herein, in addition to can providing the light source radiation response of omnidirectional 360 degree, more can use non-directional structure kenel to present so that it is the illuminator of application, can even continue to use the commodity kenel of bulb moulding with lamp plate, lamp group and present；Especially, can pass through and each smooth electric energy element, each thermoelectric power element and the integrating operation of electric power storage module, luminous energy produced by luminous disome and energy recovery are converted into the electric energy needed for supply illuminator running, more highlight effect of its energy saving.

Accompanying drawing explanation

Fig. 1 is the lamp bar structure sectional view of first embodiment of the invention.

Fig. 2 is the lamp bar section structure sectional view of second embodiment of the invention.

Fig. 3 is the illuminator structure figure of the first embodiment of the present invention.

Fig. 4 is the illuminator structure figure of the second embodiment of the present invention.

Fig. 5 is the illuminator structure figure of the third embodiment of the present invention.

Fig. 6 is the lamp bar structure kenel schematic diagram in the middle of the present invention.

Fig. 7 is the lamp bar another kind structure kenel schematic diagram in the middle of the present invention.

Figure number illustrates:

10 lamp bars

11 transparency carriers

12 light emitting diodes

121 conducting films

13 protective layers

14 fluorescence coatings

15 even photospheres

16 printing opacity materials

17 smooth electric energy elements

18 thermoelectric power elements

20 lamp sockets

30 control module

40 electric power storage modules

50 lamp brackets.

Detailed description of the invention

Present invention generally provides a kind of lamp bar producing omni-directional light source radiation response; and the illuminator of its application, as it is shown in figure 1, the lamp bar 10 of the present invention; consist essentially of: transparency carrier 11, an at least light emitting diode 12, protective layer 13, fluorescence coating 14, and an even photosphere 15；Wherein: this transparency carrier 11, for having the flexible base plate of light transmission, mainly as taking advantage of the frame for movement main body carrying light emitting diode 12；In time implementing, the material of described transparency carrier 11 can be chosen as gallium nitride base board or sapphire substrate one of them.

Each light emitting diode 12 is fixedly arranged on this transparency carrier 11 through at least one conducting film 121；Described each light emitting diode 12 can be that semiconductor crystal wafer cuts grain；Described each conducting film 121 can be the stannum indium oxide of tool light transmission；In time implementing, each light emitting diode 12 can be further transmitted through wafer bonding (Wafer Bonding) die bond on this transparency carrier, as this die bond can be Direct Bonding (direct bonding) or glued (Glue bonding) one of them.

This protective layer 13 is coated on this transparency carrier 11 relatively and each light emitting diode 12 is peripheral; plastifying material hardened forming by tool light transmission; main in order to fixing transparency carrier 11 and the package assembly of each light emitting diode 12, and transparency carrier 11 and each light emitting diode 12 are constituted shielding action；In time implementing, described protective layer 13 can be by silica gel hardened forming.

This fluorescence coating 14 is made up of the fluorescent material being relatively covered in this protective layer 13 periphery, mainly utilizes fluorescent material to produce laser reactive with the light source of light emitting diode 12, uses and reach intended photochromic expression effect.

It is peripheral that this even photosphere 15 is coated on this fluorescence coating 14 relatively, by the plastifying material hardened forming of tool light transmission；In time implementing, described even photosphere 15 can be by silica gel hardened forming；Certainly, described even photosphere 15 also can add fluorescent material further, uses generation second time laser reactive.

In principle; the lamp bar 10 of the present invention is in time using; can pass through conducting film 121 and connect power supply; when the current lead-through of light emitting diode 12; can be under the assosting effect of fluorescence coating 14 and even photosphere 15; make the light source of light emitting diode 12 towards the all-round periphery of protective layer to external exposure, make the isotropic 360 degree of light-out effect of generation.

Furthermore, the lamp bar 10 of the present invention, can use, further in this even photosphere 15 peripheral cladding one printing opacity material 16, structural strength and the reliability increasing overall lamp bar 10；In time implementing, described printing opacity material 16 can be chosen as glass or silicon one of them.And, overall lamp bar 10 can be installed with at least one light electric energy element 17 converting light energy into electric energy in this even photosphere 15 periphery, or is installed with at least one thermoelectric power element 18 converting thermal energy into electric energy in this even photosphere 15 periphery.

Certainly, overall lamp bar 10 is again with as shown in the figure, it is installed with at least one light electric energy element 17, at least converting light energy into electric energy in this even photosphere 15 periphery and converts thermal energy into the thermoelectric power element 18 of electric energy, and the structure kenel being provided with a printing opacity material 16 this even photosphere 15, total light electric energy element 17, total thermoelectric power element 18 being coated with in this even photosphere 15 periphery is rendered as good.

Coordinate shown in reference Fig. 2 and Fig. 3 the most simultaneously, the illuminator that disclosed herein, consist essentially of: lamp socket 20, an at least lamp bar 10, and one has controlled module 30；Wherein: each lamp bar 10 is located on this lamp socket 20, each lamp bar 10 is provided with at least one light emitting diode 12 on a transparency carrier 11, each light emitting diode 12 is fixedly arranged on this transparency carrier 11 through at least one conducting film 121, separately in this transparency carrier 11 and each light emitting diode 12 peripheral cladding one by the protective layer 13 of the plastifying material hardened forming of light transmission, in the fluorescence coating 14 that the peripheral cladding one of this protective layer 13 is made up of fluorescent material, in this fluorescence coating 14 peripheral cladding one by the even photosphere 15 of the plastifying material hardened forming of light transmission, it is installed with at least one light electric energy element 17 converting light energy into electric energy in this even photosphere 15 periphery, and at least one thermoelectric power element 18 converting thermal energy into electric energy.

This control module 30 is electrically connected with each light emitting diode 12, each smooth electric energy element 17, each thermoelectric power element 18, for connecting power supply produced by external power source and each smooth electric energy element 17, each thermoelectric power element 18, and whether control the current lead-through of each light emitting diode 12.

According to this, obtain a kind of illuminator that can be produced 360 degree of light-out effect of omnidirectional by lamp bar 10, and under the integrating operation controlling module 30 and each smooth electric energy element 17, each thermoelectric power element 18, luminous energy produced by light emitting diode 12 and energy recovery can be converted into the electric energy needed for supply illuminator running.

Furthermore, integral illumination device is further provided with the electric power storage module 40 of one and the electrical connection of this control circuit 30, for storing electric energy produced by each smooth electric energy element 17 and each thermoelectric power element 18.

The illuminator of the present invention, in time implementing, can be as shown in Figure 3, total lamp bar 10 is directly arranged on this lamp socket 20, or as shown in Figure 4, it is provided with least one set lamp bracket 50 in this lamp socket 20, it is provided with at least one lamp bar 10 in each lamp bracket 50, to increase the variation in moulding effect of integral illumination device, or produce different functional；Certainly, integral illumination device is again to be provided with the electric power storage module 40 of one and the electrical connection of this control circuit 30, and is provided with least one set lamp bracket 50 in this lamp socket 20, and the structure kenel being provided with at least one lamp bar 10 in each lamp bracket 50 is rendered as good.

In the embodiment shown in Fig. 3 and Fig. 4, described illuminator presents with the commodity kenel of lamp affixed to the ceiling or wall lamp；Certainly, through the alteration of form of lamp bracket 50, integral illumination device can also desk lamp kenel as shown in Figure 5 present；Even, can coordinate each lamp bar 10 around in the loop shaped shown in Fig. 6, or by each lamp bar 10 around in the helical form shown in Fig. 7, make applied illuminator, can present even with the commodity kenel of bulb with lamp plate, lamp group.

Same, described each lamp bar 10 can be as shown in Figure 2, be provided with a printing opacity material 16 this even photosphere 15, total light electric energy element 17, total thermoelectric power element 18 being coated with in this even photosphere 15 periphery further, described printing opacity material 16 can be chosen as glass or silicon one of them.

As for, described control module can be made up of a start unit, a detecting unit, a computing unit, a compensating unit, a wireless signal reception unit, a voltage regulation unit electrical connection；Main by start unit activate switch power supply；Whether it is in by detecting unit detecting integral illumination device and uses electricity condition；The electricity that integral illumination device is not enough is calculated by computing unit；The not enough electricity calculated according to computing unit by compensating unit changes and is supplied by civil power, and the civil power consumption making to reach minimum uses state；Even, can receive from remote controller, intelligent mobile phone, the control signal of panel computer, to reach the manipulation effect of long-range wireless remote control by wireless signal reception unit.

Comparing with conventional art, the lamp bar that disclosed herein, in addition to can providing the light source radiation response of omnidirectional 360 degree, more can use non-directional structure kenel to present so that it is the illuminator of application, can present even with the commodity kenel of bulb with lamp plate, lamp group；Especially, can pass through and each smooth electric energy element, each thermoelectric power element and the integrating operation of electric power storage module, luminous energy produced by luminous disome and energy recovery are converted into the electric energy needed for supply illuminator running, more highlight effect of its energy saving.

Claims (24)

1. a lamp bar, it is characterised in that including:

One transparency carrier, for having the flexible base plate of light transmission；

At least one light emitting diode, is fixedly arranged on this transparency carrier through at least one conducting film；

One protective layer, is coated on this transparency carrier relatively and each light emitting diode is peripheral, by the plastifying material hardened forming of tool light transmission；

One fluorescence coating, is made up of the fluorescent material being relatively covered in this protective layer peripheral；

One even photosphere, is coated on this fluorescence coating peripheral relatively, by the plastifying material hardened forming of tool light transmission.

2. lamp bar as claimed in claim 1, it is characterised in that this lamp bar is coated with a printing opacity material in this even photosphere periphery.

3. lamp bar as claimed in claim 1, it is characterised in that this lamp bar is installed with at least one light electric energy element converting light energy into electric energy in this even photosphere periphery.

4. lamp bar as claimed in claim 1, it is characterised in that this lamp bar is installed with at least one thermoelectric power element converting thermal energy into electric energy in this even photosphere periphery.

5. lamp bar as claimed in claim 1, it is characterised in that this lamp bar is installed with at least one light electric energy element converting light energy into electric energy in this even photosphere periphery, and at least one thermoelectric power element converting thermal energy into electric energy.

6. lamp bar as claimed in claim 1, it is characterized in that, this lamp bar is installed with at least one light electric energy element converting light energy into electric energy in this even photosphere periphery, and at least one thermoelectric power element converting thermal energy into electric energy, it is provided with one in this even photosphere periphery by this even photosphere, total light electric energy element, the printing opacity material of total thermoelectric power element cladding.

7. lamp bar as claimed in claim 1, it is characterised in that this each conducting film is the stannum indium oxide of tool light transmission.

8. lamp bar as claimed in claim 1, it is characterised in that this each light emitting diode is that semiconductor crystal wafer cuts grain.

9. lamp bar as claimed in claim 1, it is characterised in that this transparency carrier material be gallium nitride base board or sapphire substrate one of them.

10. lamp bar as claimed in claim 1, it is characterised in that this protective layer is by silica gel hardened forming.

11. lamp bars as claimed in claim 1, it is characterised in that this even photosphere adds fluorescent material.

12. lamp bars as claimed in claim 1, it is characterised in that this even photosphere is by silica gel hardened forming.

13. lamp bars as claimed in claim 1, it is characterised in that this each light emitting diode passes through wafer bonding die bond on this transparency carrier.

14. lamp bars as claimed in claim 13, it is characterised in that this wafer bonding be Direct Bonding or glued one of them.

15. lamp bars as claimed in claim 1, it is characterised in that this printing opacity material be glass or silicon one of them.

16. 1 kinds of illuminators, it is characterised in that including:

One lamp socket；

At least one lamp bar, it is located on this lamp socket, each lamp bar is provided with at least one light emitting diode on a transparency carrier, each light emitting diode is fixedly arranged on this transparency carrier through at least one conducting film, separately it is coated with one by the protective layer of the plastifying material hardened forming of light transmission in this transparency carrier and each light emitting diode periphery, in the fluorescence coating that this bag sheath periphery cladding one is made up of fluorescent material, in this fluorescence coating periphery cladding one by the even photosphere of the plastifying material hardened forming of light transmission, it is installed with at least one light electric energy element converting light energy into electric energy in this even photosphere periphery, and at least one thermoelectric power element converting thermal energy into electric energy；

One controls module, and each light emitting diode, each smooth electric energy element, the electrical connection of each thermoelectric power element, for connecting power supply produced by external power source and each smooth electric energy element, each thermoelectric power element, and whether controls the current lead-through of each light emitting diode.

17. illuminators as claimed in claim 16, it is characterised in that this illuminator is provided with least one set lamp bracket in this lamp socket, is provided with at least one lamp bar in each lamp bracket.

18. illuminators as claimed in claim 16, it is characterised in that this illuminator is provided with the electric power storage module of one and the electrical connection of this control circuit.

19. illuminators as claimed in claim 16, it is characterised in that this illuminator is provided with the electric power storage module of one and the electrical connection of this control circuit；And, it is provided with least one set lamp bracket in this lamp socket, is provided with at least one lamp bar in each lamp bracket.

20. illuminators as claimed in claim 16, it is characterised in that this each lamp bar is provided with one by this even photosphere, total light electric energy element, the printing opacity material of total thermoelectric power element cladding in this even photosphere periphery.

21. illuminators as claimed in claim 20, it is characterised in that this printing opacity material be glass or silicon one of them.

22. illuminators as described in claim 17 or 19, it is characterised in that each lamp bar is around in loop shaped.

23. illuminators as described in claim 17 or 19, it is characterised in that each lamp bar is around in the shape of a spiral.

24. illuminators as claimed in claim 16, it is characterised in that this control module is made up of a start unit, a detecting unit, a computing unit, a compensating unit, a wireless signal reception unit, a voltage regulation unit electrical connection.