CN218936074U - Four-wire belt control rubber-insulated wire lamp - Google Patents

Abstract

The utility model discloses a decorative lighting lamp, aiming at providing a four-wire belt control rubber-insulated wire lamp, which is characterized by comprising a controller and rubber-insulated wire lamp modules, wherein the controller is used for connecting and controlling a plurality of rubber-insulated wire lamp modules, the rubber-insulated wire lamp modules are sequentially connected, each rubber-insulated wire lamp module comprises a first electric wire, a second electric wire, a third electric wire, a fourth electric wire and a plurality of LED lamp modules arranged between the second electric wire and the third electric wire, the left ends of the first electric wire, the second electric wire and the third electric wire are connected to form a left positive electrode wiring, the left end of the fourth electric wire is arranged to form a left negative electrode wiring, the right end of the first electric wire is arranged to form a right positive electrode wiring, the right ends of the second electric wire, the third electric wire and the fourth electric wire are connected to form a right negative electrode wiring, and the rubber-insulated wire lamp modules are connected with the controller or the other rubber-insulated wire lamp modules through the left positive electrode wiring and the left negative electrode wiring.

Description

Four-wire belt control rubber-insulated wire lamp

Technical Field

The utility model relates to the technical field of colored lamps, in particular to a four-wire belt control leather wire lamp.

Background

At present, the rubber-insulated wire lamp is widely applied to various municipal lighting, building lighting, landscape lighting, stage lighting and teaching lighting, the LED lamp string is multi-purpose for decorating, lamp pearl scintillation mode and colour change are very many when its use, in current rubber-insulated wire lamp setting winding displacement setting, every cluster rubber-insulated wire lamp all is furnished with a controller, connected mode between the rubber-insulated wire lamp is, the lamp tail connection of the controller on one of them rubber-insulated wire lamp and another rubber-insulated wire lamp, this kind of connected mode is complicated and be difficult to firm the connection, to this shortcoming, we can improve through optimizing the winding displacement, so that only need a total controller just can control the rubber-insulated wire lamp, all the other rubber-insulated wire lamps connect gradually each other, then reduce controller quantity, finally practice thrift the cost.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model aims to provide a four-wire belt control leather wire lamp.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the four-wire belt-control rubber-insulated wire lamp comprises a controller and a rubber-insulated wire lamp module, wherein the controller is used for connecting and controlling a plurality of rubber-insulated wire lamp modules, the rubber-insulated wire lamp modules are sequentially connected, each rubber-insulated wire lamp module comprises a first electric wire, a second electric wire, a third electric wire, a fourth electric wire and a plurality of LED lamp modules arranged between the second electric wire and the third electric wire, the left ends of the first electric wire, the second electric wire and the third electric wire are connected to form a left positive electrode wiring, the left end of the fourth electric wire is arranged to be a left negative electrode wiring, the right end of the first electric wire is arranged to be a right positive electrode wiring, the right ends of the second electric wire, the third electric wire and the right end of the fourth electric wire are connected to form a right negative electrode wiring, the rubber-insulated wire lamp modules connected with the controller are head rubber-insulated wire lamp modules, and the head rubber-insulated wire lamp modules are connected with the head rubber-insulated wire lamp modules in such a way that the right positive electrode wiring of the head rubber-insulated wire lamp modules is connected with the left positive electrode wiring of the head rubber-insulated wire lamp modules; the right negative electrode wiring of the first flex light module is connected with the left negative electrode wiring of the second flex light module, and the connection mode between the subsequent flex light modules follows the regular connection.

The utility model is further provided with: the LED lamp module comprises n light emitting diodes which are connected in parallel.

The utility model is further provided with: the adjacent light emitting diodes in the LED lamp module are reversely arranged.

The utility model is further provided with: the adjacent light emitting diodes in the LED lamp module are arranged in the same direction.

Through adopting above-mentioned technical scheme, a plurality of rubber-insulated-wire lamp module sharing controller can be according to actual conditions to the control of rubber-insulated-wire lamp module connection quantity, is applicable to outdoor, indoor decoration illumination, has saved the cost of manufacturing the controller after the controller connects a plurality of rubber-insulated-wire lamp module, and rubber-insulated-wire lamp module connects convenient and fast moreover, installs promptly and uses promptly, has higher practicality.

Drawings

FIG. 1 is a schematic diagram of a four-wire belt-control flex lamp according to an embodiment of the present utility model;

fig. 2 is a schematic structural view of embodiment 2;

reference numerals in the drawings: 1. a controller; 2. a first electrical lead; 3. a second electrical lead; 4. a third electrical lead; 5. a fourth electrical conductor; 6. an LED lamp module; 7. a light emitting diode; 8. a rubber-insulated wire lamp module; 9. a left positive electrode wiring; 10. a left negative electrode wiring; 11. a right positive electrode wiring; 12. a right negative electrode wiring; 13. a socket; 14. a plug.

Detailed Description

A four-wire belt-control flex lamp embodiment of the present utility model will be further described with reference to fig. 1-2.

Spatially relative terms, such as "upper," "lower," "left," "right," and the like, may be used in the embodiments for ease of description to describe one element or feature's relationship to another element or feature's illustrated in the figures. It will be understood that the spatial terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "under" other elements or features would then be oriented "over" the other elements or features. Thus, the exemplary term "lower" may encompass both an upper and lower orientation. The device may be otherwise positioned (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Moreover, relational terms such as "first" and "second", and the like, may be used solely to distinguish one element from another element having the same name, without necessarily requiring or implying any actual such relationship or order between such elements.

Example 1:

the four-wire belt-control rubber-insulated wire lamp comprises a controller 1 and a rubber-insulated wire lamp module 8, wherein the controller 1 is used for connecting and controlling a plurality of rubber-insulated wire lamp modules 8, the rubber-insulated wire lamp modules 8 are sequentially connected, the rubber-insulated wire lamp module 8 comprises a first electric wire 2, a second electric wire 3, a third electric wire 4, a fourth electric wire 5 and a plurality of LED lamp modules 6 arranged between the second electric wire 3 and the third electric wire 4, the left ends of the first electric wire 2, the second electric wire 3 and the third electric wire 4 are connected to form a left positive electrode wiring 9, the left end of the fourth electric wire 5 is arranged as a left negative electrode wiring 10, the right end of the first electric wire 2 is arranged as a right positive electrode wiring 11, the right ends of the second electric lead 3, the third electric lead 4 and the fourth electric lead 5 are connected to form a right negative electrode wiring 12, the rubber-insulated wire lamp module 8 is connected with the controller 1 through a left positive electrode wiring 9 and a left negative electrode wiring 10, the rubber-insulated wire lamp module 8 connected with the controller 1 is a first rubber-insulated wire lamp module 8, the rubber-insulated wire lamp module 8 connected with the first rubber-insulated wire lamp module 8 is a secondary rubber-insulated wire lamp module 8, the subsequent rubber-insulated wire lamp modules 8 are all connected with the previous rubber-insulated wire lamp module 8, and the connection mode of the secondary rubber-insulated wire lamp module 8 and the first rubber-insulated wire lamp module 8 is that the right positive electrode wiring 11 of the first rubber-insulated wire lamp module 8 is connected with the left positive electrode wiring 9 of the secondary rubber-insulated wire lamp module 8; the right negative electrode wiring 12 of the first flex lamp module 8 is connected with the left negative electrode wiring 10 of the second flex lamp module 8, a four-wire tape control flex lamp is formed after the flex lamp modules 8 are connected together, the connection modes between the subsequent flex lamp modules 8 are all connected with the flex lamp modules 8 in a mode of following the connection modes of the flex lamp modules 8, the right positive electrode wiring 11 and the right negative electrode wiring 12 of the flex lamp modules 8 can be provided with sockets 13, the right positive electrode wiring 11 and the right negative electrode wiring 12 serve as two leads in the sockets 13, the left positive electrode wiring 9 and the left negative electrode wiring 10 of the flex lamp modules 8 can be provided with plugs 14, the left positive electrode wiring 9 and the left negative electrode wiring 10 serve as two leads in the plugs 14, when the flex lamp modules 8 are connected with each other, direct connection can be completed only through the plugs 14 and the sockets 13, the LED lamp modules 6 comprise n parallel light emitting diodes 7, and the LEDs 7 which are arranged adjacently are arranged in the LED lamp modules 6 in opposite directions.

Example 2:

this embodiment is substantially identical to the embodiment 1 arrangement, the only difference being that the light emitting diodes 7 arranged adjacently in the LED lamp module 6 are arranged in the same direction.

The above description is only a preferred embodiment of the present utility model, and is not intended to limit the utility model, but one skilled in the art can make common changes and substitutions within the scope of the technical solution of the present utility model.

Claims (4)

1. A four-wire belt control leather wire lamp is characterized in that: the electric wire lamp comprises a controller (1) and a rubber-insulated wire lamp module (8), wherein the controller (1) is used for connecting and controlling a plurality of rubber-insulated wire lamp modules (8), the rubber-insulated wire lamp modules (8) are sequentially connected, the rubber-insulated wire lamp modules (8) comprise a first electric wire (2), a second electric wire (3), a third electric wire (4), a fourth electric wire (5) and a plurality of LED lamp modules (6) arranged between the second electric wire (3) and the third electric wire (4), the left ends of the first electric wire (2), the second electric wire (3) and the third electric wire (4) are connected to form a left positive electrode wiring (9), the left end of the fourth electric wire (5) is arranged to be a left negative electrode wiring (10), the right end of the first electric wire (2) is arranged to be a right positive electrode wiring (11), the right end of the second electric wire (3), the third electric wire (4) and the right end of the fourth electric wire (5) is connected to form a right negative electrode wiring (12), the rubber-insulated wire lamp module (8) is connected with the controller (1) through a left positive electrode wiring (9), the left negative electrode wiring (10) to be connected with the controller (1) to the left electrode lamp module (8) in a rubber-insulated wire lamp module (8) in a bit mode, the right positive electrode wiring (11) of the primary rubber-insulated wire lamp module (8) is connected with the left positive electrode wiring (9) of the secondary rubber-insulated wire lamp module (8); the right negative electrode wiring (12) of the first flex light module (8) is connected with the left negative electrode wiring (10) of the second flex light module (8), and the connection mode between the subsequent flex light modules (8) follows the regular connection.

2. A four-wire belt controlled flex lamp as defined in claim 1, wherein: the LED lamp module (6) comprises n light emitting diodes (7) which are connected in parallel.

3. A four-wire belt controlled flex lamp as defined in claim 2, wherein: the LEDs (7) which are adjacently arranged in the LED lamp module (6) are reversely arranged.

4. A four-wire belt controlled flex lamp as defined in claim 2, wherein: and the LEDs (7) which are adjacently arranged in the LED lamp module (6) are arranged in the same direction.

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