CN208634833U - Double-colour horn wire modulated structure - Google Patents
Double-colour horn wire modulated structure Download PDFInfo
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- CN208634833U CN208634833U CN201821357773.5U CN201821357773U CN208634833U CN 208634833 U CN208634833 U CN 208634833U CN 201821357773 U CN201821357773 U CN 201821357773U CN 208634833 U CN208634833 U CN 208634833U
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- welding section
- electric wire
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- insulating layer
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Abstract
The utility model proposes a kind of Double-colour horn wire modulated structures, include the first electric wire, the second electric wire, two LED components and transparent colloid.The first welding section that first electric wire has part exposed;The second welding section that second electric wire has part exposed;Two LED components are electrically connected in first welding section and second welding section, and described two LED components are opposite each other by the forward bias direction of first welding section to second welding section;Transparent colloid is coated on described two LED components, first welding section and second welding section, and extends coated to first insulating layer and the second insulating layer.By transparent colloid, LED component is more securely configured between the first electric wire and the second electric wire, and provides good bi-chromatic illumination effect.
Description
Technical field
The utility model is about line lamp, especially with regard to a kind of Double-colour horn wire modulated structure.
Background technique
Line lamp (String light) is directly in cable space to weld multiple light sources, forms linear lighting device,
Save the configuration of prior lamp holder.It is a kind of configuration side often applied for miniature light sources, such as ball bubble, LED chip
Formula.Line lamp (String light) possesses the original reelable characteristic of electric wire, so that line lamp (String light) is easy to appoint
The configuration for kenel of anticipating, and it is suitable for special lighting demand or decoration.
The mode of traditional welding light source is after the insulating layer for removing electric wire, directly outside by the electrode welding of light source
In the copper core of dew, then butt welding point carries out insulation processing.Light source can obviously protrude from electric wire, and form significantly luminous directive property.
Simultaneously actually when pulling electric wire configuration, light source may be blocked by foreign matter, and pad is caused to fall off.Meanwhile although electric wire
Allow significantly to bend, but bent characteristic is usually short of in solder part, therefore, is pullled in electric wire or electric wire is by curved
The stress point of folding is located exactly at solder, is easy to generate improper stress to solder, equally can pad be fallen off.And it needs double-colored
Luminous occasion generally also will use two groups of line lamp winding configurations, but the winding of two groups of line lamps aggravates foregoing problems again,
And allow pad fall off problem increase.
Summary of the invention
Based on aforementioned techniques project, the utility model proposes a kind of Double-colour horn wire modulated structure, uses and solve prior art presence
Technical task.
The utility model proposes a kind of Double-colour horn wire modulated structures, which is characterized in that includes: the first electric wire, has the first gold medal
Belong to core and the first insulating layer, first insulating layer is coated on first metal core, and first metal core part
Expose outside the first welding section;Second electric wire, has the second metal core and second insulating layer, and the second insulating layer is coated on institute
The second metal core is stated, and second metal core locally exposes outside the second welding section;Two LED components, are electrically connected
In first welding section and second welding section, and described two LED components by first welding section to described
The forward bias direction of second welding section is each other on the contrary, therefore when being passed through positive voltage or negative electricity pressure difference, only one LED component
It can shine;And transparent colloid, it is coated on described two LED components, first welding section and second welding section, and
Extend coated to first insulating layer and the second insulating layer.
Preferably, Double-colour horn wire modulated structure further includes support plate, described two LED components are respectively arranged at the support plate, and
Described two LED components are connected to first welding section and the electrode contact of second welding section is set to the support plate
Both sides of the edge.
Preferably, described two LED components are the LED chips of single encapsulation.
Preferably, the support plate is perpendicular to first welding section and second welding section.
Preferably, there are two recesses for the support plate tool, are located at the both sides of the edge, described two LED components are connected to institute
The electrode contact for stating the first welding section and second welding section is located at described two recesses, and first welding
Section and second welding section are embedded in described two recesses.
Preferably, Double-colour horn wire modulated structure further includes two support plates, and described two LED components are respectively arranged at described two loads
Plate.
Preferably, described two support plates are perpendicular to first welding section and second welding section.
Preferably, described two LED components are side-emitting LED components, and are directed parallel to first electric wire, described
The direction of second electric wire shines.
Preferably, the light emission direction of described two LED components is in the same direction or reversed.
Preferably, described two support plates are parallel to first welding section and second welding section.
By the utility model above-described embodiment, LED component can be configured more securely in the first electric wire and the second electricity
Between line, and provide good bi-chromatic illumination effect.
Detailed description of the invention
Attached drawing 1 is the decomposition of the first electric wire, the second electric wire and two LED components in the utility model first embodiment
Schematic diagram.
Attached drawing 2 is in the utility model first embodiment, after the first electric wire, the second electric wire and two LED components combine
Perspective view.
Attached drawing 3 is in the utility model second embodiment, after the first electric wire, the second electric wire and two LED components combine
Perspective view.
Attached drawing 4 is in the utility model second embodiment, after the first electric wire, the second electric wire and two LED components combine
Perspective view.
Attached drawing 5 is in the utility model 3rd embodiment, after the first electric wire, the second electric wire and two LED components combine
Perspective view.
Attached drawing 6 is in the utility model 3rd embodiment, after the first electric wire, the second electric wire and two LED components combine
Perspective view.
Attached drawing 7 is in the utility model fourth embodiment, after the first electric wire, the second electric wire and two LED components combine
Perspective view.
Attached drawing 8 is in the 5th embodiment of the utility model, and line lamp connects the circuit diagram of circuit.
Attached drawing 9 is in the utility model sixth embodiment, and line lamp connects the circuit of circuit.
Attached drawing 10 is the solid in seventh embodiment of the invention, after the first electric wire, the second electric wire and LED component combination
Figure.
Symbol description
100 Double-colour horn wire modulated structures
110 first electric wire, 112 first metal core
114 first insulating layer, 116 first welding section
120 second electric wire, 122 second metal core
124 second insulating layer, 126 second welding section
132 electrode contact of 130LED component
140 transparent colloid, 150 support plate
152 recesses
Specific embodiment
It is a kind of Double-colour horn wire modulated structure 100 that the utility model first embodiment proposes, packet shown in attached drawing 1 and attached drawing 2
The first electric wire 110,120, two LED components 130 of the second electric wire and transparent colloid 140 are included.
As shown in attached drawing 1 and attached drawing 2, although LED component shown in figure 130 is only presented one group two, reality
Upper LED component 130 can be two groups or more, continuous parallel configuration the first electric wire 110 and the second electric wire 120 it
Between.
As shown in attached drawing 1 and attached drawing 2, the first electric wire 110 has the first metal core 112 and the first insulating layer 114, institute
It states the first insulating layer 114 and is coated on first metal core 112, and 112 part of the first metal core is made to expose outside first
Welding section 116.The quantity of first welding section 116 has corresponded to several groups of LED components 130, and (first welding section 116 corresponds to
One group of two LED component 130).
Second electric wire 120 has the second metal core 122 and second insulating layer 124, and the second insulating layer 124 is coated on
Second metal core 122, and 122 part of the second metal core is made to expose outside the second welding section 126, and described first
It keeps being electrically insulated between metal core 112 and second metal core 124.The quantity of second welding section 126 has also corresponded to
Several groups of LED components 130, and the first welding section 116 and the second welding section 126 are pairs of settings.
First metal core 112 and second metal core 124 are usually copper core, but are not excluded for being to be had to prolong by other
Malleability and the good metal or alloy manufacture of electric conductivity, such as aluminium core.First insulating layer 114 and second insulating layer 124 are usually
Plastic bag rubber, the first insulating layer 114 and second insulating layer 124, which can be, disconnected from each other to be also possible to link together.The
One insulating layer 114 and second insulating layer 124 are also possible to coatings, for example, using enameled wire as the first electric wire 110 and
Second electric wire 120.
As shown in attached drawing 1 and attached drawing 2, two LED components 130 be electrically connected in first welding section 116 with
And second welding section 126, and described two LED components 130 are by first welding section 116 to second welding section
126 forward bias direction each other on the contrary, simultaneously, described two LED components 130 can be the LED component of different colours, such as
One blue led and a red LED.That is, when applying a bias to the first electric wire 110 and the second electric wire 120
When, described two LED components 130 will a shinny extinguishing.
As shown in Fig. 2, transparent colloid 140 is coated on described two LED components 130, first welding section 116 and institute
The second welding section 126 is stated, and extends coated to the part of first insulating layer 114 and the second insulating layer 124, thoroughly
The part that gelatin body 140 corresponds to two LED components 130 has maximum sectional area, and then sectional area is with transparent colloid 140
Towards first insulating layer 114 and the second insulating layer 124 extension cladding and it is tapered.That is, transparent colloid
140 other than coating described two LED components 130, first welding section 116 and second welding section 126, described
First insulating layer 114 and the second insulating layer 124 are bordered by first welding section 116 and second welding section 126
Part can also be coated by transparent colloid 140.
The material of transparent colloid 140 can be ultraviolet photo-curing glue (UV Cure Adhesive) etc. can be with rapid curing
Liquid glue.With dispensing tool to 130 dispensing of LED component after, so that liquid glue is flowed to first insulating layer 114 and institute
Second insulating layer 124 is stated, then is aligned irradiates and solidifying and setting with ultraviolet rapidly, to protect described two LED components
130, first welding section 116 and second welding section 126, while but also as optical module, form light diffusion effect
Fruit.
In this way, when providing full phase alternating current to the first electric wire 110 and the second electric wire 120, the first electric wire 110 to
Bias between second electric wire 120 can constantly change direction, so that can all have a LED in the half period of each alternating current
Component 130 is in forward bias voltage drop state light, and another LED component 130 is in reverse bias without shining.As long as continuing
Input full phase alternating current, so that it may make the LED component of two different colours alternately shinny.
Referring again to shown in attached drawing 1 and attached drawing 2, the Double-colour horn wire modulated structure 100 of first embodiment further includes having support plate 150.
Described two LED components 130 are respectively arranged at the support plate 150, and described two LED components 130 can be single encapsulation
The wherein one side of support plate 150 is arranged in LED chip;Described two LED components 130 are also possible to two independent LED chips,
It is separately positioned on the two sides of support plate 150.Meanwhile described two LED components 130 are connected to first welding section 116 and institute
The electrode contact 132 for stating the second welding section 126 can be set in the both sides of the edge of the support plate 150.In order to promote support plate 1
Fixed effect, the support plate 150 is perpendicular to first welding section 116 and second welding section 126, and the support plate
There are two recesses 152 for 150 tools, are located at the both sides of the edge, described two LED components 130 are connected to first welding section 116
And the electrode contact 132 of second welding section 126 is located at described two recesses 152, and first welding section
116 and second welding section 126 be embedded in described two recesses 152, so that support plate be effectively fixed, while also ensuring that electrode
Contact 132 is certainly connected to first welding section 116 and second welding section 126.In fact, in first embodiment
In, the two poles of the earth of described two LED components 130 can share two electrode contacts 132.
It is a kind of Double-colour horn wire modulated structure 100 that the utility model second embodiment proposes, packet shown in attached drawing 3 and attached drawing 4
The first electric wire 110,120, two LED components 130 of the second electric wire and transparent colloid 140 are included.
The Double-colour horn wire modulated structure 100 of second embodiment further includes two support plates 150, and described two LED components 130 are set respectively
It is placed in described two support plates 150.Described two support plates 150 are perpendicular to first welding section 116 and second welding section
126, and there are two recesses 152 for each described support plate 150 tool, are located at the both sides of the edge, and first welding section
116 and second welding section 126 be embedded in described two recesses 152.
In a second embodiment, described two LED components 130 can be positioned at the same side of described two support plates 150,
It is also possible to positioned at the not ipsilateral of described two support plates 150.
It is a kind of Double-colour horn wire modulated structure 100 that the utility model 3rd embodiment proposes, packet shown in attached drawing 5 and attached drawing 6
The first electric wire 110,120, two LED components 130 of the second electric wire, transparent colloid 140 and two support plates 150 are included.
The LED component 130 of 3rd embodiment is side-emitting LED component, and the bottom of support plate 150 is arranged pad, directly welds
It is connected to first welding section 116 and second welding section 126.Other than support plate 150 vertical as shown in the figure, support plate
150 are also possible to the form laid flat, and increase the welding surface with first welding section 116 and second welding section 126
Product, and make the configuration of LED component 130 be directed towards lateral emitting, that is, is parallel to the first electric wire 110, the second electric wire 120
Direction shines.The light emission direction of described two LED components 130 can be towards in the same direction or reversed.
It is a kind of Double-colour horn wire modulated structure 100 that the utility model fourth embodiment proposes shown in attached drawing 7, includes the first electricity
Line 110,120, two LED components 130 of the second electric wire, transparent colloid 140 and two support plates 150.
The setting of recess 152 is omitted in the support plate 150 of fourth embodiment, is directly parallel to described two support plates 150 described
First welding section 116 and second welding section 126, and first weldering is welded in the bottom surface of described two support plates 150
Connect section 116 and second welding section 126.Described two LED components 130 are all luminous upward, but are also readily modified as side hair
Light LED component, and forming support plate 150 as described in 3rd embodiment is to lay flat and the configuration of LED component 130 is directed towards side and sends out
Light.
It is a kind of Double-colour horn wire lamp connection circuit 2 disclosed by the 5th embodiment of the utility model shown in attached drawing 8, being used for will
Double-colour horn wire modulated structure 100 as in the first embodiment is set as long line lamp both with series connection and parallel connection.
As shown in Fig. 8, the 5th embodiment Double-colour horn wire lamp connection circuit 2 include the first electric wire 110, the second electric wire 120,
Third electric wire 160 and the pairs of LED component 130 of multiple groups.
As shown in Fig. 8, the first electric wire 110 is for receiving ac potential AC input, and third electric wire 160 is for connecing
Ground potential (GND).Second electric wire 120 is then as the node interconnected between LED component 130.In fact, in the 5th embodiment
The first electric wire 110, the second electric wire 120 and third electric wire 160 can be in first embodiment between any two the first electric wire 110 and
The displacement of second electric wire 120.
As shown in Fig. 8, multiple groups LED component 130 is divided into two groups.First group of LED component 130 is mutually in parallel, with
One electric wire 110 and the second electric wire 120 are two connection end points in parallel, and second group of LED component 130 is mutually in parallel, the second electric wire
120 and third electric wire 160 be two connection end points in parallel.First group of LED component 130 and second group of LED component 130, and with
Second electric wire 120 is used as connection end point, and is formed and be mutually connected in series.
Referring again to shown in attached drawing 8, the Double-colour horn wire lamp connection circuit 2 of the 5th embodiment further includes current-limiting resistance 180, series connection
Between the first electric wire 110 and ac potential AC, limitation passes through size of current.180 limiting AC current potential AC of current-limiting resistance output
To the electric current of the first electric wire 110, so that the electric current for avoiding passing through LED component 130 is excessive to be caused to burn.
In the 5th embodiment, the first electric wire 110, the second electric wire 120 and third electric wire 160 are actually parallel deployment,
It therefore, can be such as the first electric wire 110, the second electric wire 120 and the third electric wire 160 in first embodiment, through insulating layer
Three electric wires 110,120,160 are arranged to be combined together, are only separated in the part of setting LED component 130.In this way,
As one long line lamp, be conducive to installation paving line.
It is a kind of line lamp connection circuit 3 provided by sixth embodiment, including the first electric wire 110, second shown in attached drawing 9
The line lamp connection circuit 3 of electric wire 120, third electric wire 160 and multiple groups LED component 130, sixth embodiment is further provided with third
Cut-out point C3, the second cut-out point C2 and the first cut-out point C1, to constitute required current path.First in sixth embodiment
Electric wire 110, the second electric wire 120 and third electric wire 160 can be the first electric wire 110 and second in first embodiment between any two
The displacement of electric wire 120.
As shown in Fig. 9, the first electric wire 110, the second electric wire 120 and third electric wire 160 are matched side by side according to extending direction L
It sets, can actually be three single strand wires or three multiply metallic cables using insulating layer combination.Third cut-out point
C3, the second cut-out point C2 and the first cut-out point C1 are according to extending direction L, and sequentially compartment of terrain cuts off third electric wire 160, the second electric wire
120 and first electric wire 110, so that line lamp is connected electricity according to third cut-out point C3, the second cut-out point C2 and the first cut-out point C1
Multiple sections are divided on road 3.
As shown in Fig. 9, multiple groups LED component 130 is divided into several and is configured.First group of 130 foundation of LED component
Extending direction L is connected to the first electric wire 110 and the second electric wire 120 before the first cut-out point C1.
As shown in Fig. 9, second group of LED component 130 is according to extending direction L, in third cut-out point C3 and the second cut-out point
The second electric wire 120 and third electric wire 160 are connected between C2.
As shown in Fig. 9, third group LED component 130 is according to extending direction L, and the is connected to after the second cut-out point C2
Two electric wires 120 and third electric wire 160.
As shown in Fig. 9, the 4th group of namely remaining LED components 130, according to extending direction L, in the first cut-out point C1
And second be connected to the first electric wire 110 and the second electric wire 120 after cut-out point C2.
In this way, which LED component 130 can be divided into four groups.First group of LED component 130 is mutually in parallel, with the first electricity
Line 110 and the second electric wire 120 are two connection end points in parallel, and second group of LED component 130 is mutually in parallel, with the second electric wire 120
And third electric wire 160 is two connection end points in parallel.Meanwhile first group of LED component 130 and second group of LED component 130, again
Using the second electric wire 120 as connection end point, and is formed and be mutually connected in series.
Third group LED component 130 is mutually in parallel, and is two connecting pins in parallel with the second electric wire 120 and third electric wire 160
Point, and the second electric wire 120 between second crowd and third group is disconnected by the second cut-out point C2, therefore, actually third group
LED component 130 is to be series at second group.Similar situation, the 4th group of LED components 130 are mutually in parallel, with the first electric wire 110 and
Second electric wire 120 is two connection end points in parallel, and between first group and the 4th group, and the first electric wire 110 is by the first cutting
Point C1 is disconnected, and therefore, the 4th group of LED components 130 are connected with third group LED component 130.
As shown in Fig. 9, one end of the first electric wire 110 receives an ac potential AC.Similarly, in 3rd embodiment,
First electric wire 110, the second electric wire 120 and third electric wire 160 are actually parallel deployment, can become one long line lamp, be conducive to
Installation paving line.
Referring again to shown in attached drawing 9, the line lamp connection circuit 3 of sixth embodiment further includes current-limiting resistance 180, is series at first
Between electric wire 110 and ac potential AC, limitation passes through size of current.180 limiting AC current potential AC of current-limiting resistance is exported to first
The electric current of electric wire 110, so that the electric current for avoiding passing through LED component 130 is excessive to be caused to burn.
It is a kind of Double-colour horn wire modulated structure 100 that seventh embodiment of the invention proposes shown in attached drawing 10, includes the first electric wire
110, the second electric wire 120, LED component 130, transparent colloid 140 and support plate 150.
As shown in Fig. 10, the first electric wire 110 has the first metal core 112 and the first insulating layer 114, and described first absolutely
Edge layer 114 is coated on first metal core 112, and 112 part of the first metal core is made to expose outside the first welding section
116.Second electric wire 120 has the second metal core 122 and second insulating layer 124, and the second insulating layer 124 is coated on described
Second metal core 122, and 122 part of the second metal core is made to expose outside the second welding section 126, and first metal
It keeps being electrically insulated between core 112 and second metal core 124.
As shown in Fig. 10, the first metal core 112 and the second metal core 122 that support plate 150 is fixed on, and the LED
Component 130 is set to the side of support plate 150.The LED component 130 is welded for being electrically connected the first welding section 116 and second
The electrode contact 132 for connecing section 126 is located at the both sides of the edge of support plate 150.By welding electrode contact 132 in the first welding section 116
With the second welding section 126, support plate 150 is fixedly welded on the first welding section 116 and the second welding section 126.
LED component 130 is electrically connected at the first welding section 116 and the second welding section 126 by electrode contact 132.LED group
Part 130 is side-emitting LED component, towards lateral emitting, that is, is parallel to the direction hair of the first electric wire 110, the second electric wire 120
Light.
Pad is arranged in the bottom of support plate 150, is directly welded in first welding section 116 and second welding section
126.Other than support plate 150 vertical as shown in the figure, support plate 150 is also possible to the form laid flat, and increases and described first
The bonding area of welding section 116 and second welding section 126, and the configuration of LED component 130 is made to be described two LED groups
The light emission direction of part 130 can be towards in the same direction or reversed.Transparent colloid 140 is coated on the LED component 130, described first
Welding section 116 and second welding section 126, and extend coated to first insulating layer 114 and second insulation
The part of layer 124.Preferably, at least two LED components 130 are welded in the first weld part of a pair 116 and the second welding respectively
Portion 126, and two LED components 130 are by first welding section 116 to the forward bias direction of second welding section 126
Each other on the contrary, to form a Double-colour horn wire modulated structure.
By the utility model above-described embodiment, LED component 130 can more securely configure in the first electric wire 110 and
Between second electric wire 120, and provide good bi-chromatic illumination effect.
Claims (10)
1. a kind of Double-colour horn wire modulated structure, which is characterized in that include:
First electric wire has the first metal core and the first insulating layer, and first insulating layer is coated on first metal core,
And first metal core locally exposes outside the first welding section;
Second electric wire has the second metal core and second insulating layer, and the second insulating layer is coated on second metal core,
And second metal core locally exposes outside out the second welding section;
Two LED components are electrically connected in first welding section and second welding section, and described two
LED component is opposite each other by the forward bias direction of first welding section to second welding section;And
Transparent colloid is coated on described two LED components, first welding section and second welding section, and extends packet
It covers to first insulating layer and the second insulating layer.
2. Double-colour horn wire modulated structure according to claim 1, which is characterized in that it further include support plate, described two LED components point
It is not set to the support plate, and described two LED components are connected to first welding section and second welding section
Electrode contact is set to the both sides of the edge of the support plate.
3. Double-colour horn wire modulated structure according to claim 2, which is characterized in that described two LED components are single encapsulation
LED chip.
4. Double-colour horn wire modulated structure according to claim 2, which is characterized in that the support plate is perpendicular to first welding section
And second welding section.
5. Double-colour horn wire modulated structure according to claim 4, which is characterized in that there are two recesses for the support plate tool, are located at institute
Both sides of the edge are stated, described two LED components are connected to the electrode contact point of first welding section and second welding section
Not Wei Yu described two recesses, and first welding section and second welding section are embedded in described two recesses.
6. Double-colour horn wire modulated structure according to claim 1, which is characterized in that further include two support plates, described two LED groups
Part is respectively arranged at described two support plates.
7. Double-colour horn wire modulated structure according to claim 6, which is characterized in that described two support plates are perpendicular to first weldering
Connect section and second welding section.
8. Double-colour horn wire modulated structure according to claim 7, which is characterized in that described two LED components are side-emitting LED groups
Part, and be directed parallel to first electric wire, second electric wire direction shine.
9. Double-colour horn wire modulated structure according to claim 7, which is characterized in that the light emission direction of described two LED components is
It is in the same direction or reversed.
10. Double-colour horn wire modulated structure according to claim 6, which is characterized in that described two support plates are parallel to described first
Welding section and second welding section.
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CN201821357773.5U CN208634833U (en) | 2018-08-22 | 2018-08-22 | Double-colour horn wire modulated structure |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110630923A (en) * | 2019-09-06 | 2019-12-31 | 珠海博杰电子股份有限公司 | Electrodeless flat-pasted LED lamp string, production method and production equipment thereof |
CN110857756A (en) * | 2018-08-22 | 2020-03-03 | 鸿盛国际有限公司 | Double-color line lamp structure |
US11300273B2 (en) | 2018-03-09 | 2022-04-12 | Blooming International Limited | Dual-color light strings |
-
2018
- 2018-08-22 CN CN201821357773.5U patent/CN208634833U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11300273B2 (en) | 2018-03-09 | 2022-04-12 | Blooming International Limited | Dual-color light strings |
CN110857756A (en) * | 2018-08-22 | 2020-03-03 | 鸿盛国际有限公司 | Double-color line lamp structure |
CN110630923A (en) * | 2019-09-06 | 2019-12-31 | 珠海博杰电子股份有限公司 | Electrodeless flat-pasted LED lamp string, production method and production equipment thereof |
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