CN205001878U - Luminous LED encapsulation of space multi -angle - Google Patents

Abstract

The utility model provides a luminous LED encapsulation of space multi -angle, is including the middle adapting unit and the outer side support that expand to be located a plane, last a plurality of series connection and/or the parallelly connected LED chip of being equipped with of outer side support is connected through the connecting wire between these a plurality of LED chips, outer side support is a plurality of for the circumference evenly distributed's along middle adapting unit, and outer side support and middle adapting unit interconnect, outer side support includes the strip base plate, and outer side support can buckle for this centre adapting unit and form spatial structure, and a plurality of outer side support that form behind the spatial structure lie in different planes respectively. This luminous LED encapsulation of space multi -angle, spatial structure's that can the implementation space multi -angle base plate setting for the LED chip can be set up on it, and realize a plurality of not equidirectional illumination faces of orientation, the luminous more three -dimensional and easily control of LED chip on it is made.

Description

The emitting led encapsulation of a kind of spacial multi-angle

Technical field

The utility model relates to the emitting led encapsulation of a kind of spacial multi-angle.

Background technology

In prior art, there is different LED encapsulation method, comprise pin (Lamp) LED, chip on board directly-mounting type (ChipOnBoard) LED, SMD (SurfaceMountDevice) LED, system (SystemInPackage) LED etc., and according to different LED encapsulation method, different base plate for packaging can be used.

In the ordinary course of things, the substrate of chip on board directly-mounting type (ChipOnBoard) LED is the substrate be made up of circuit board or homogenous material, as metal, PVC, lucite, plastics etc., and shape is planar rectangular mostly, planar rondure or planar strip etc., and the edge of substrate is generally smoothed curve or straight line.

And existing substrate arranges LED chip and after sealing up fluorescent glue, what send is planar light, even if multiple substrate to be arranged to the illuminator of three-dimensional shape, not thorough due to overall construction design, the also easy phenomenon occurring non-uniform light in illuminator surrounding.In addition, when substrate is light transmissive material, although can 360 degree luminous, usually can run into heat dissipation problem, when substrate is light-proof material, such as metal, just can not have light in the one side not arranging LED chip, can not 360 degree omnibearing luminous.

Generally speaking, the lighting angle of existing chip on board directly-mounting type (ChipOnBoard) LED package substrate and bulb is even not, cannot multi-angle, luminous at many levels, and easily meets heat dissipation problem, affects luminous efficiency.

Utility model content

Technical problem to be solved in the utility model is to provide one and is easy to heat radiation, is easy to again LED chip distribution and realizes multicolor luminous at many levels, and can realize the LED of LED bulb all-dimensional multi-angle luminescence.

The utility model solves the problems of the technologies described above adopted technical scheme: the emitting led encapsulation of a kind of spacial multi-angle, comprise the intermediate connecting part and the outrigger that launch to be positioned at a plane, described outrigger is provided with the LED chip of multiple series connection and/or parallel connection, connected by connecting line between the plurality of LED chip, it is characterized in that: described outrigger is equally distributed multiple along the circumference of intermediate connecting part, and described outrigger and intermediate connecting part are interconnected, described outrigger comprises strip substrate, and described outrigger is relative to the bent formation stereochemical structure of this intermediate connecting part, the multiple outriggers formed after stereochemical structure lay respectively in different planes.

Preferably, described intermediate connecting part is annular strip substrate.

Preferably, the circumferential substrate that the circumference that described outrigger comprises the circle that many edges are the center of circle with the center of intermediate connecting part extends, with the radial substrate that the radial direction along the circle being the center of circle with the center of intermediate connecting part extends, along the spaced radial of the circle being the center of circle with the center of intermediate connecting part between many circumferential substrates, described radial substrate connects the end of circumferential substrate.

Preferably, described radial substrate is from beginning to end successively by circumferential substrate.

Preferably, described intermediate connecting part is annular, polygonal annular substrate, or circular flat substrate or polygon plane substrate.

Preferably, described radial substrate and circumferential substrate are straight line strip substrate.

Preferably, described radial substrate is straight line strip substrate, and described circumferential substrate is arc substrate.

As a preferred embodiment of the present utility model, described intermediate connecting part comprises many staggered connection wires, the described outrigger center comprised along intermediate connecting part is the spaced radial distribution of the circle that the center of circle is formed and the arc substrate extended along circular circumference, and described arc substrate connects by being connected wire with between intermediate connecting part.。

For the ease of arrangement and the control of LED chip in LED, described outrigger is provided with the opening of disconnection, and opening is provided with connector, described connector comprises nonconducting material outside at the two ends of parcel connection opening, with the inside material of conduction being positioned at material outside, the two ends of described inside material and opening all do not contact with each other.

Preferably, described intermediate connecting part is also provided with the LED chip of multiple series connection and/or parallel connection, is connected by connecting line between the plurality of LED chip.

Compared with prior art, the utility model has the advantage of the emitting led encapsulation of this spacial multi-angle, can implementation space multi-angle stereochemical structure substrate arrange, make it can arrange LED chip, and realize towards the illuminated area of multiple different directions, make the luminescence of the LED chip on it more three-dimensional and be easy to control.

Accompanying drawing explanation

Fig. 1 is the schematic diagram that the emitting led encapsulation of spacial multi-angle of the first embodiment of the present utility model is expanded to a plane.

Fig. 2 is the schematic diagram after the emitting led encapsulation of the spacial multi-angle of the first embodiment of the present utility model forms three-dimensional shape.

Fig. 3 is the connection diagram of connector in the first embodiment of the present utility model and outrigger.

Fig. 4 is the schematic diagram that the emitting led encapsulation of spacial multi-angle of the second embodiment of the present utility model is expanded to a plane.

Fig. 5 is the schematic diagram that the emitting led encapsulation of spacial multi-angle of the 3rd embodiment of the present utility model is expanded to a plane.

Fig. 6 is the schematic diagram that the emitting led encapsulation of spacial multi-angle of the 4th embodiment of the present utility model is expanded to a plane.

Fig. 7 is the schematic diagram that the emitting led encapsulation of spacial multi-angle of the 5th embodiment of the present utility model is expanded to a plane.

Detailed description of the invention

Below in conjunction with accompanying drawing embodiment, the utility model is described in further detail.

As shown in Figure 1, 2, for the schematic diagram of the LED of the first embodiment of the present utility model, LED in this Fig. 1 is expanded in a plane, comprise and be positioned at middle intermediate connecting part 1, and be positioned at the outside of intermediate connecting part 1, multiple outriggers 2 that the circumference around intermediate connecting part 1 distributes.In this embodiment, intermediate connecting part 1 is identical material with outrigger 2, and this intermediate connecting part 1 is annular, is directly connected between outrigger 2 with intermediate connecting part 1.Outrigger 2 can relative to intermediate connecting part 1 bending, form a stereochemical structure, as shown in Figure 2, now the plurality of outrigger 2 is positioned at different planes, and be also positioned at different planes from intermediate connecting part 1, form the illumination of stereo multi-angle with this.

As shown in Figure 1, 2, the outrigger 2 in this embodiment is the broken line strip board structure of zigzag, and this intermediate connecting part 1 is polygonal annular, the corresponding outrigger 2 in each limit.And the more past outside of outrigger 2, its straight line strip is longer, and namely outrigger 2 has the trend that size laterally increases gradually.Therefore, as shown in Figure 2, when this outrigger 2 forms stereochemical structure relative to intermediate connecting part 1 bending, the radial dimension of stereochemical structure, increases from top to bottom gradually, and now intermediate connecting part 1 is positioned at top.This intermediate connecting part 1 and outrigger 2 all can be connected and/or multiple LED chip, realize multi-angle, multi-level luminescence.The material of intermediate connecting part 1 and outrigger 2 can adopt the wherein one in metal, lucite, PVC, plastics, sapphire, pottery or silica gel, or the multiple material in above-mentioned material is by splicing or nested mode composition.

Preferably, the circumferential substrate 21 that the circumference that this outrigger 2 comprises the circle that many edges are the center of circle with the center of intermediate connecting part 1 extends and the radial substrate 22 extended along circular radial direction, circumference substrate 21 comprises radially spaced apart many, and radial substrate 22 connects this circumferential substrate 21.This circumferential substrate 21 and radial substrate 22 are strip substrate, and this circumferential substrate 21 and radial substrate 22 are straight line strip substrate.

Further, on each outrigger 2 in this embodiment, the connector 3 making outrigger 2 form open circuit is provided with.Preferably, as shown in Figure 3, this outrigger 2 is formed with the opening 20 of disconnection, connector 3 comprises the material outside 31 at parcel connection opening 20 two ends, with the inside material 32 being positioned at material outside 31, this inside material 32 does not all contact with the two ends of opening 20, this material outside 31 only plays and is connected at opening 20 two ends of outrigger 2, for electrically non-conductive material, and inside material 32 is conductive material, and the inside material 32 of this conduction also can be electrically connected with the LED chip on outrigger 2 by connecting line, realizes multiple connection and control mode.

On the substrate of the strip of this outrigger 2, namely circumferential substrate 21 and radial substrate 22 all can be connected and/or multiple LED chip 100 in parallel, and this intermediate connecting part 1 also can arrange multiple LED chip, namely whole outrigger 2 and intermediate connecting part 1 are holistic substrate, it can arrange LED chip 100, and then form multiple irradiating surface, realize the space luminescence structure of multi-angle.Connected by connecting line 200 between LED chip 100.And as shown in Figure 3, the LED chip 100 on this outrigger 2 is connected with the inside material 32 of the conduction in connector 3 by connecting line 200, also can not be connected with inside material 32, and then realize the multiple control modes of LED chip 100.

As shown in Figure 4, for the schematic diagram of the LED of this second embodiment, intermediate connecting part 1 in this embodiment is annular, outrigger 2 is three, and each outrigger 2 comprises spaced many circumferential substrates 21 with middle circle annular concentric, and the radial substrate 22 that the radial direction of the annulus along intermediate connecting part 1 being connected respectively by many circumferential substrates 21 and being connected with intermediate connecting part 1 by outrigger 2 extends, radial substrate 22 is also strip substrate.Radial substrate 22 connects the two ends of many circumferential substrates 21 successively, is joined end to end successively by many circumferential substrates 21.Now, this circumferential substrate 21 is arc substrate, and the center of circle is positioned at the center of intermediate connecting part 1, and radial substrate 22 is straight line strip substrate.In this embodiment, identical with the first embodiment, be also the LED chip that multiple series connection and/or parallel connection can be set on outrigger 2 and intermediate connecting part 1.

As shown in Figure 5, the structure in this embodiment is substantially identical with the LED encapsulation structure in the first embodiment, and just this tool intermediate connecting part 1 is hexagon, and outrigger 2 is 6.And when this LED is deployed in a plane, every two outriggers 2 are adjacent has less interval.It is also the LED chip that multiple series connection and/or parallel connection can be set on outrigger 2 and intermediate connecting part 1 in this embodiment.

As shown in Figure 6, LED encapsulation structure in 4th embodiment is also substantially identical with the LED encapsulation structure of the second embodiment, intermediate connecting part 1 is annular, outrigger 2 is six, each outrigger 2 comprises spaced many circumferential substrates 21 with middle circle annular concentric, and the radial substrate 22 that the radial direction being the circle in the center of circle along intermediate connecting part 1 center being connected respectively by many circumferential substrates 21 and being connected with intermediate connecting part 1 by outrigger 2 extends.And when this LED is deployed in a plane, between each outrigger 2, interval is less.Outrigger 2 and intermediate connecting part 1 can be arranged the LED chip of multiple series connection and/or parallel connection.

Fig. 7 is the schematic diagram of the LED of the 5th embodiment, in this embodiment, intermediate connecting part 1 comprises many and connects wire 26, the i.e. structure of this intermediate connecting part 1 also not necessarily ring-type, also can be other structures, such as many structures connecting wire 26 and be staggered to form, or also can be a planar structure, can be polygon plane, or circular flat etc.Along being the center of circle with intermediate connecting part 1 center, circumference is distributed with multiple outrigger 2, and outrigger 2 comprises the arc substrate 25 that many concentric spacings are arranged, and connects the two ends of this arc substrate 25 and the connection wire 26 of intermediate connecting part 1.Each outrigger 2 can be the same or different, as shown in Figure 7, have six outriggers 2, wherein three only comprise an arc substrate 25, other three comprise two arc substrates 25 separately, have the outrigger 2 of two arc substrates 25 and the spaced setting of outrigger only with an arc substrate 25.In this embodiment, the LED chip of multiple series connection and/or parallel connection can be set on arc substrate 25.Be electrically connected by connecting line between LED chip, the LED chip at arc substrate 25 two ends be connected wire 26 and connect, and then be connected wire 26 connect with many of intermediate connecting part 1 position, realize the various control of the LED chip on arc substrate 25.

Those skilled in the art also can recognize, this outrigger also can adopt other structure, as long as this outrigger comprises the substrate of strip, it can arrange LED chip.The substrate of such as this strip also can be polygon or bending irregular strip, or the list structure of various structures splicing.

The emitting led encapsulation of this spacial multi-angle, can implementation space multi-angle stereochemical structure substrate arrange, make it can arrange LED chip, and realize towards the illuminated area of multiple different directions, make the luminescence of the LED chip on it more three-dimensional and be easy to control.

Although more than describe in detail preferred embodiment of the present utility model, should be expressly understood that, for a person skilled in the art, the utility model can have various modifications and variations.All do within spirit of the present utility model and principle any amendment, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. the emitting led encapsulation of spacial multi-angle, comprise the intermediate connecting part (1) and the outrigger (2) that launch to be positioned at a plane, described outrigger (2) is provided with the LED chip (100) of multiple series connection and/or parallel connection, connected by connecting line (200) between the plurality of LED chip (100), it is characterized in that: described outrigger (2) is equally distributed multiple along the circumference of intermediate connecting part (1), and described outrigger (2) and intermediate connecting part (1) are interconnected, described outrigger (2) comprises strip substrate, and described outrigger (2) is relative to the bent formation stereochemical structure of this intermediate connecting part (1), the multiple outriggers (2) formed after stereochemical structure lay respectively in different planes.

2. the emitting led encapsulation of spacial multi-angle as claimed in claim 1, is characterized in that: described intermediate connecting part (1) is annular strip substrate.

3. the emitting led encapsulation of spacial multi-angle as claimed in claim 2, it is characterized in that: described outrigger (2) comprises the circumferential substrate (21) that many edges extend with the circumference that the center of intermediate connecting part (1) is the circle in the center of circle, with the radial substrate (22) extended along the radial direction taking the center of intermediate connecting part (1) as the circle in the center of circle, along the spaced radial taking the center of intermediate connecting part (1) as the circle in the center of circle between many circumferential substrates (21), described radial substrate (22) connects the end of circumferential substrate (21).

4. the emitting led encapsulation of spacial multi-angle as claimed in claim 3, is characterized in that: described radial substrate (22) is by from beginning to end successively for circumferential substrate (21).

5. the emitting led encapsulation of spacial multi-angle as claimed in claim 1, is characterized in that: described intermediate connecting part (1) is annular, polygonal annular substrate, or circular flat substrate or polygon plane substrate.

6. the emitting led encapsulation of spacial multi-angle as claimed in claim 3, is characterized in that: described radial substrate (22) and circumferential substrate (21) are straight line strip substrate.

7. the emitting led encapsulation of spacial multi-angle as claimed in claim 3, is characterized in that: described radial substrate (22) is straight line strip substrate, and described circumferential substrate (21) is arc substrate.

8. the emitting led encapsulation of spacial multi-angle as claimed in claim 1, it is characterized in that: described intermediate connecting part (1) comprises many staggered connection wires (26), described outrigger (2) center comprised along intermediate connecting part (1) is the spaced radial distribution of the circle that the center of circle is formed and the arc substrate (25) extended along circular circumference, described arc substrate (25) with pass through to be connected wire (26) between intermediate connecting part (1) and connect.

9. the emitting led encapsulation of spacial multi-angle as claimed in claim 1, it is characterized in that: described outrigger (2) is provided with the opening (20) of disconnection, and opening (20) is provided with connector (3), described connector (3) comprises nonconducting material outside (31) at the two ends of parcel connection opening (20), with the inside material (32) of conduction being positioned at material outside (31), described inside material (32) does not all contact with each other with the two ends of opening (20).

10. the emitting led encapsulation of spacial multi-angle according to any one of claim 1-7,9, it is characterized in that: the LED chip (100) described intermediate connecting part (1) being also provided with multiple series connection and/or parallel connection, connected by connecting line (200) between the plurality of LED chip (100).