CN217057179U - Double-colored light LED lamp - Google Patents

Abstract

The utility model provides a double-color LED lamp, which comprises a substrate, a light source, a plate electrode and a zero ohm resistor; the electrode plates comprise a first negative electrode plate, a second negative electrode plate and a first positive electrode plate; the substrate comprises a conductive coating; a light source and an electrode plate which are connected through a conductive coating are arranged on one side of the substrate; the light source comprises a first color source and a second color source; the first end of the first color source and the first end of the second color source are respectively connected with the first positive electrode plate, the second end of the first color source is connected with the first negative electrode plate, and the second end of the second color source is connected with the second negative electrode plate; and a zero ohm resistor is arranged between the second end of the first color source and the first negative electrode plate, and the first end of the second color source is connected with the first positive electrode plate through the zero ohm resistor. The light sources with different colors are arranged in a crossed manner, and the zero ohm resistors are arranged between the crossed conductive coatings, so that the light sources of the LED lamp are dispersed, the light emitting effect is enhanced, and the service life is prolonged.

Description

Double-colored light LED lamp

Technical Field

The utility model relates to a LED lamp technical field especially relates to a double-colored light LED lamp.

Background

The LED lamp is a lighting lamp widely used in the market all over the world at present, has the advantages of small volume, high brightness, low power consumption, less heat generation, long service life, environmental protection and the like, has rich and colorful color types, and is deeply loved by consumers.

The routing structure inside the existing LED lamp is generally: the light sources with the same color are gathered together for wiring so as to simplify the wiring structure of the circuit. However, the wiring manner of the circuit can concentrate the light sources of the same light emitting color in the LED lamp in a certain area, thereby resulting in poor light emitting effect of the LED lamp and shortened service life of the LED lamp.

Therefore, the wiring structure of the existing LED lamp needs to be further improved.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention has been made to provide a bi-color light LED lamp that overcomes or at least partially solves the above problems.

In order to solve the above problem, the utility model discloses a double-colored light LED lamp, include: the device comprises a substrate, a light source, an electrode plate and a zero ohm resistor;

the electrode plates include a first negative electrode plate, a second negative electrode plate, and a first positive electrode plate;

the substrate comprises a conductive coating; the light source and the electrode plate which are connected through the conductive coating are arranged on one side of the substrate;

the light source comprises a first color source and a second color source; the first end of the first color source and the first end of the second color source are respectively connected with the first positive electrode plate, the second end of the first color source is connected with the first negative electrode plate, and the second end of the second color source is connected with the second negative electrode plate; a zero ohm resistor is arranged between the second end of the first color source and the first negative electrode plate, and the first end of the second color source is connected with the first positive electrode plate through the zero ohm resistor;

when the first positive electrode plate and the first negative electrode plate are respectively connected with a power supply, the first color light source emits light;

when the first positive electrode plate and the second negative electrode plate are respectively connected with a power supply, the second color source emits light.

Optionally, the first color source comprises a first lamp source, a second lamp source and a third lamp source, and the second color source comprises a fourth lamp source, a fifth lamp source and a sixth lamp source; the first lamp source, the second lamp source and the third lamp source are sequentially connected, and the fourth lamp source, the fifth lamp source and the sixth lamp source are sequentially connected;

the first lamp source is connected with the first negative electrode plate, the zero ohm resistor is arranged between the first lamp source and the first negative electrode plate, and the third lamp source is connected with the first positive electrode plate; the fourth light source is connected with the second negative electrode plate, the sixth light source is connected with the first positive electrode plate, and the fifth light source is connected with the sixth light source through the zero ohm resistor.

Optionally, the first light source and the second light source are aligned in a first direction, and the third light source is disposed at a side of the first light source and the second light source; the fourth light source and the fifth light source are arranged in an aligned mode along a first direction, the fourth light source and the fifth light source are arranged between the third light source and the first light source and between the third light source and the second light source, the sixth light source is arranged on the side edges of the first light source and the second light source, and the sixth light source and the third light source are arranged oppositely;

optionally, the first negative electrode plate, the second negative electrode plate and the first positive electrode plate are respectively disposed at an edge of the substrate, and the first negative electrode plate and the second negative electrode plate are disposed diagonally to the first positive electrode plate.

Alternatively, the shape of the first negative electrode plate, the shape of the second negative electrode plate, and the shape of the first positive electrode plate are triangular, respectively.

Optionally, the light source is an LED light source.

Optionally, the electrode plate is gold, silver or copper.

Optionally, the conductive coating is gold, silver or copper.

The utility model discloses a following advantage: the device comprises a substrate, a light source, an electrode plate and a zero ohm resistor; the electrode plates include a first negative electrode plate, a second negative electrode plate, and a first positive electrode plate; the substrate comprises a conductive coating; the light source and the electrode plate which are connected through the conductive coating are arranged on one side of the substrate; the light source comprises a first color source and a second color source; the first end of the first color source and the first end of the second color source are respectively connected with a first positive electrode plate, the second end of the first color source is connected with a first negative electrode plate, and the second end of the second color source is connected with a second negative electrode plate; a zero ohm resistor is arranged between the second end of the first color source and the first negative electrode plate, and the first end of the second color source is connected with the first positive electrode plate through the zero ohm resistor; when the first positive electrode plate and the first negative electrode plate are respectively connected with a power supply, the first color light source emits light; when the first positive electrode plate and the second negative electrode plate are respectively connected with a power supply, the second color source emits light. The light sources with different colors are arranged in a crossed mode, and the zero ohm resistors are arranged between the crossed conductive coatings, so that the light sources of the LED lamp are dispersed, the light emitting effect is enhanced, and the service life is prolonged.

Drawings

Fig. 1 is a schematic structural view of the utility model discloses a bicolor light LED lamp.

Description of the drawings: 1. the lamp comprises a substrate, 21, a first negative electrode plate, 22, a second negative electrode plate, 23, a first positive electrode plate, 31, a first lamp source, 32, a second lamp source, 33, a third lamp source, 34, a fourth lamp source, 35, a fifth lamp source, 36, a sixth lamp source, 4, a conductive coating, 5 and a zero ohm resistor.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

One of the core ideas of the utility model is that a substrate 1, a light source, a plate electrode and a zero ohm resistor 5; the electrode plates include a first negative electrode plate 21, a second negative electrode plate 22, and a first positive electrode plate 23; the substrate 1 comprises a conductive coating 4; the light source and the electrode plate which are connected through the conductive coating 4 are arranged on one side of the substrate 1; the light source comprises a first color source and a second color source; the first end of the first color source and the first end of the second color source are respectively connected with a first positive electrode plate 23, the second end of the first color source is connected with a first negative electrode plate 21, and the second end of the second color source is connected with a second negative electrode plate 22; a zero ohm resistor 5 is arranged between the second end of the first color source and the first negative electrode plate 21, and the first end of the second color source is connected with the first positive electrode plate 23 through the zero ohm resistor 5; when the first positive electrode plate 23 and the first negative electrode plate 21 are respectively connected to a power source, the first color light source emits light; when the first positive electrode plate 23 and the second negative electrode plate 22 are respectively connected to a power source, the second color source emits light. The light sources with different colors are arranged in a crossed manner, and the zero ohm resistors 5 are arranged between the crossed conductive coatings 4, so that the light sources of the LED lamp are dispersed, the light emitting effect is enhanced, and the service life is prolonged.

Referring to fig. 1, a schematic structural diagram of a dual-color LED lamp of the present invention is shown, which may specifically include:

the device comprises a substrate 1, a light source, an electrode plate and a zero ohm resistor 5;

the electrode plates include a first negative electrode plate 21, a second negative electrode plate 22, and a first positive electrode plate 23;

the substrate 1 comprises a conductive coating 4; the light source and the electrode plate which are connected through the conductive coating 4 are arranged on one side of the substrate 1;

the light source comprises a first color source and a second color source; the first end of the first color source and the first end of the second color source are respectively connected with a first positive electrode plate 23, the second end of the first color source is connected with a first negative electrode plate 21, and the second end of the second color source is connected with a second negative electrode plate 22; wherein, a zero ohm resistor 5 is arranged between the second end of the first color source and the first negative electrode plate 21, and the first end of the second color source is connected with the first positive electrode plate 23 through the zero ohm resistor 5;

when the first positive electrode plate 23 and the first negative electrode plate 21 are respectively connected to a power supply, the first color light source emits light;

when the first positive electrode plate 23 and the second negative electrode plate 22 are respectively connected to a power source, the second color source emits light.

In the embodiment of the present application, the substrate 1, the light source, the electrode plate, and the zero ohm resistor 5; the electrode plates include a first negative electrode plate 21, a second negative electrode plate 22, and a first positive electrode plate 23; the substrate 1 comprises a conductive coating 4; the light source and the electrode plate which are connected through the conductive coating 4 are arranged on one side of the substrate 1; the light source comprises a first color source and a second color source; the first end of the first color source and the first end of the second color source are respectively connected with a first positive electrode plate 23, the second end of the first color source is connected with a first negative electrode plate 21, and the second end of the second color source is connected with a second negative electrode plate 22; a zero ohm resistor 5 is arranged between the second end of the first color source and the first negative electrode plate 21, and the first end of the second color source is connected with the first positive electrode plate 23 through the zero ohm resistor 5; when the first positive electrode plate 23 and the first negative electrode plate 21 are respectively connected to a power source, the first color light source emits light; when the first positive electrode plate 23 and the second negative electrode plate 22 are respectively connected to a power source, the second color source emits light. The light sources with different colors are arranged in a crossed manner, and the zero ohm resistors 5 are arranged between the crossed conductive coatings 4, so that the light sources of the LED lamp are dispersed, the light emitting effect is enhanced, and the service life is prolonged.

Next, the bichromatic LED lamp in the present exemplary embodiment will be further described.

In one embodiment of the present application, the first color source includes a first lamp source 31, a second lamp source 32, and a third lamp source 33, and the second color source includes a fourth lamp source 34, a fifth lamp source 35, and a sixth lamp source 36; the first light source 31, the second light source 32 and the third light source 33 are connected in sequence, and the fourth light source 34, the fifth light source 35 and the sixth light source 36 are connected in sequence;

the first lamp source 31 is connected with the first negative electrode plate 21, the zero ohm resistor 5 is arranged between the first lamp source 31 and the first negative electrode plate 21, and the third lamp source 33 is connected with the first positive electrode plate 23; the fourth light source 34 is connected to the second negative electrode plate 22, the sixth light source 36 is connected to the first positive electrode plate 23, and the fifth light source 35 is connected to the sixth light source 36 through the zero ohm resistor 5.

In a specific embodiment, the first light source 31 and the second light source 32 are aligned along a first direction, and the third light source 33 is disposed at a side of the first light source 31 and the second light source 32; the fourth light source 34 and the fifth light source 35 are aligned along a first direction, the fourth light source 34 and the fifth light source 35 are disposed between the third light source 33 and the first light source 31 and the second light source 32, the sixth light source 36 is disposed at a side of the first light source 31 and the second light source 32, and the sixth light source 36 is disposed opposite to the third light source 33;

in an embodiment of the present application, the first negative electrode plate 21, the second negative electrode plate 22 and the first positive electrode plate 23 are respectively disposed at an edge of the substrate 1, and the first negative electrode plate 21 and the second negative electrode plate 22 are disposed diagonally to the first positive electrode plate 23.

In an embodiment of the present application, the shape of the first negative electrode plate 21, the shape of the second negative electrode plate 22, and the shape of the first positive electrode plate 23 are respectively triangular.

In an embodiment of the present application, the light source is an LED light source.

In an embodiment of the present application, the electrode plate is gold, silver or copper.

In one embodiment of the present application, the conductive coating 4 is gold, silver or copper.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in the process, method, article, or terminal equipment comprising the element.

The above detailed description is given to the double-color LED lamp provided by the present invention, and the specific examples are applied herein to explain the principle and the implementation of the present invention, and the description of the above examples is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (8)

1. A bi-color LED lamp, comprising: the device comprises a substrate, a light source, an electrode plate and a zero ohm resistor;

the electrode plates include a first negative electrode plate, a second negative electrode plate, and a first positive electrode plate;

the substrate comprises a conductive coating; the light source and the electrode plate which are connected through the conductive coating are arranged on one side of the substrate;

the light source comprises a first color source and a second color source; the first end of the first color source and the first end of the second color source are respectively connected with the first positive electrode plate, the second end of the first color source is connected with the first negative electrode plate, and the second end of the second color source is connected with the second negative electrode plate; a zero ohm resistor is arranged between the second end of the first color source and the first negative electrode plate, and the first end of the second color source is connected with the first positive electrode plate through the zero ohm resistor;

when the first positive electrode plate and the first negative electrode plate are respectively connected with a power supply, the first color light source emits light;

when the first positive electrode plate and the second negative electrode plate are respectively connected to a power supply, the second color source emits light.

2. The bi-color LED lamp of claim 1, wherein the first color source comprises a first lamp source, a second lamp source, and a third lamp source, and the second color source comprises a fourth lamp source, a fifth lamp source, and a sixth lamp source; the first lamp source, the second lamp source and the third lamp source are connected in sequence, and the fourth lamp source, the fifth lamp source and the sixth lamp source are connected in sequence;

the first lamp source is connected with the first negative electrode plate, the zero ohm resistor is arranged between the first lamp source and the first negative electrode plate, and the third lamp source is connected with the first positive electrode plate; the fourth light source is connected with the second negative electrode plate, the sixth light source is connected with the first positive electrode plate, and the fifth light source is connected with the sixth light source through the zero ohm resistor.

3. The bi-color LED lamp of claim 2 wherein the first and second light sources are aligned in a first direction and the third light source is disposed laterally to the first and second light sources; the fourth light source and the fifth light source are arranged in an aligned mode along a first direction, the fourth light source and the fifth light source are arranged between the third light source and the first light source and between the third light source and the second light source, the sixth light source is arranged on the side edges of the first light source and the second light source, and the sixth light source and the third light source are arranged oppositely.

4. The bi-color light LED lamp of claim 3, wherein the first negative electrode plate, the second negative electrode plate, and the first positive electrode plate are disposed at an edge of the substrate, respectively, and the first negative electrode plate and the second negative electrode plate are disposed diagonally to the first positive electrode plate.

5. The bi-color LED lamp of claim 1, wherein the shape of the first negative electrode plate, the shape of the second negative electrode plate, and the shape of the first positive electrode plate are each triangular.

6. The bi-color LED lamp of claim 1, wherein the light source is an LED light source.

7. The bi-color LED lamp of claim 1, wherein the electrode plate is gold, silver or copper.

8. The bi-color LED lamp of claim 1, wherein the conductive coating is gold, silver, or copper.

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