CN209981569U - Luminous line structure - Google Patents

Abstract

The utility model discloses a luminous line structure, including optic fibre and LED lamp, still include the ply-yarn drill, be equipped with the draw-in groove on the ply-yarn drill, the tip card of optic fibre is located draw-in groove department, and the terminal surface orientation of this tip the light emitting area of LED lamp, the LED lamp is relative the ply-yarn drill is fixed. The utility model discloses a setting of ply-yarn drill can be simple, convenient, dock optic fibre and LED lamp reliably, and the light decay of butt joint is little, and optic fibre is luminous even, does benefit to the protection to optic fibre.

Description

Luminous line structure

Technical Field

The utility model relates to a luminescent line field, concretely relates to luminescent line structure.

Background

The light emitting lines commonly used in life include light emitting data lines, light emitting charging lines, and the like. The luminous data line and the luminous charging wire can emit light when in use, and some luminous data lines and the luminous charging wire can also display dynamic flowing luminous effect.

The light emitting wire generally comprises an optical fiber and an LED lamp, and a controller is required to obtain a dynamic light emitting effect. The LED lamp is generally fixed to an end of the optical fiber, and light emitted when the LED lamp is lit is emitted into the optical fiber from the end of the optical fiber, so that the optical fiber exhibits a full-body lighting effect. The controller controls the LED lamps to be on or off alternately, so that the corresponding optical fibers are on or off, and the dynamic light emitting effect is achieved.

In the existing light-emitting wire, the connection between the LED lamp and the optical fiber is usually achieved by threading the optical fiber through a connecting sheath, then performing surface ironing treatment on the optical fiber, then pushing the connecting sheath on the LED lamp, and finally bonding and fixing the connecting sheath and the LED lamp together by using glue. The optical fiber bonding device has the defects of high optical fiber damage rate, reduced transmittance, serious light attenuation, complex production and processing, unreliable glue bonding fixation, high failure rate and pressure on maintenance and use.

SUMMERY OF THE UTILITY MODEL

In order to improve the above insufficiency, the utility model provides a luminous line structure, butt joint structure between its optic fibre and the LED lamp is simple, convenient, reliable. The utility model discloses a following technical scheme realizes: the utility model provides a luminous line structure, includes optic fibre and LED lamp, still includes the ply-yarn drill, be equipped with the draw-in groove on the ply-yarn drill, the tip card of optic fibre is located draw-in groove department, and the terminal surface orientation of this tip the light emitting area of LED lamp, the LED lamp is relative the ply-yarn drill is fixed.

Preferably, the LED lamp further comprises a wire clamp cover, a containing cavity is further arranged in the wire clamp, and the LED lamp extends into the containing cavity and is in butt joint with the end part of the optical fiber in the containing cavity.

Preferably, the light emitting line is at least one of a charging line and a data line.

Preferably, the LED lamp further comprises a controller, the LED lamp is connected with the controller, and at least one LED lamp is arranged corresponding to at least one optical fiber.

Preferably, the optical fibers correspond to the LED lamps one to one, the light emitting line comprises a line body, the line body comprises a light-transmitting wrapping sleeve, and at least three optical fibers extend spirally in the wrapping sleeve and along the length direction of the wrapping sleeve.

Preferably, the line card is located at an end of the light emitting line.

Preferably, the wire body further comprises a standby expansion wire, and the expansion wire is arranged in the wrapping sleeve and extends along the length direction of the wrapping sleeve.

The utility model discloses a setting of ply-yarn drill can be simple, convenient, dock optic fibre and LED lamp reliably, and the light decay of butt joint is little, and optic fibre is luminous even, does benefit to the protection to optic fibre.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic cross-sectional structure view of the wire body in fig. 1.

In the figure, the reference numbers correspond to the following, including a wire body 1, a wire clip 2, an LED lamp 3, a controller 4, a plug 5, a first charging wire 11, a second charging wire 12, a first signal wire 13, a first optical fiber 14, a second optical fiber 15, a third optical fiber 16, an extension wire 17, a second signal wire 18, and a wrapping sleeve 19.

Detailed Description

The invention is further described with reference to the following figures and embodiments:

as an example, the light emitting wire of the present embodiment is a light emitting wire with charging and data transmission, and the structure thereof is as shown in fig. 1 and 2, and includes a wire body 1, a wire clip 2, an LED lamp 3, a controller 4, and a plug 5, where the wire body 1 includes a first charging wire 11, a second charging wire 12, a first signal wire 13, a second signal wire 18, a first optical fiber 14, a second optical fiber 15, a third optical fiber 16, an extension wire 17, and an envelope 19.

Specifically, the first and second charging lines 11 and 12 may serve as a positive electrode line and a negative electrode line, respectively, for charging. The first signal line 13 and the second signal line 18 are used for data signal transmission. The first, second and third optical fibers 14, 15 and 16 are used to achieve a flow lighting effect. The extension line 17 is a spare line, and can be replaced when the charging line or the signal line fails, so that the maintenance is convenient and the whole luminescent line is not scrapped, and of course, the extension line can also be used for the extension of other functions to adapt to the development of science and technology. The wrapping sleeve 19 is a semi-transparent material which can be wrapped outside the wire in a wrapping manner to play roles of fixing, protecting, transmitting light and the like.

Specifically, the second signal line 18 and the extension line 17 are twisted together, are positioned at a central portion inside the packing case 19, and extend in the length direction of the packing case 19. In the wrapping sleeve 19, the second signal line 18 and the extension line 17 are sequentially wound and distributed in a spiral shape along the length direction of the wrapping sleeve 19, so that a first charging wire 11, a second optical fiber 15, a second charging wire 12, a third optical fiber 16, a first signal line 13 and a first optical fiber 14 are arranged, and a gap is formed between adjacent positions of the first optical fiber 14, the second optical fiber 15 and the third optical fiber 16.

The tip department of the line body 1 is connected with the grafting portion of luminescent wire tip department, ply-yarn drill 2, LED lamp 3, controller 4 and plug 5 are located one of them grafting portion department, in this grafting portion department, ply-yarn drill 2 can be buried underground in grafting portion, first optic fibre 14, the tip of second optic fibre 15 and third optic fibre 16 blocks respectively and locates the draw-in groove department of the three parallel arrangement of ply-yarn drill 2, be equipped with the appearance chamber in the ply-yarn drill 2, three LED lamp 3 rigid couplings are on the controller, and go deep into foretell appearance intracavity, and respectively with first optic fibre 14 in this appearance chamber, the tip butt joint of second optic fibre 15 and third optic fibre 16, even the light emitting area of LED lamp 3 is towards the terminal surface of optic fibre tip, the light that LED lamp 3 was lighted sends like this can be lighted in penetrating optic fibre. The cavity can be formed by arranging the wire clamp cover, when the wire clamp cover is particularly implemented, the wire clamp cover is preferably covered above the clamping groove, so that the effects of controlling light rays emitted by the LED lamp 3, improving the light ray quantity emitted into the optical fiber and the like can be achieved, the light emitting energy consumption of the LED lamp 3 is reduced, the heat productivity of the insertion part is reduced, and the use is safer.

The LED lamps 3 and the optical fibers of this embodiment are arranged in a one-to-one correspondence manner, so that the LED lamps 3 are sequentially turned on and off under the control of the controller 4, that is, the first optical fiber 14, the second optical fiber 15 and the third optical fiber 16 are sequentially turned on and off correspondingly, so that the dynamic flow light emitting effect of the light emitting line can be realized. Of course, in other embodiments, at least one LED lamp may be disposed corresponding to at least one optical fiber. The connection of the signal line, the charging line, the controller and the plug in this embodiment can be implemented by referring to the conventional implementation manner, and is not described herein again.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are considered to be within the scope of the invention as defined by the following claims.

The above exemplary description is given to the present invention, and it is obvious that the present invention is not limited by the above manner, as long as the present invention adopts various improvements of the method concept and the technical solution, or the present invention is directly applied to other occasions without improvement, all within the protection scope of the present invention.

Claims (6)

1. A luminous wire structure comprises optical fibers, an LED lamp and a wire clamp, and is characterized in that the luminous wire structure further comprises the wire clamp, a clamping groove is formed in the wire clamp, the end portion of each optical fiber is clamped in the clamping groove, the end face of the end portion faces the luminous surface of the LED lamp, and the LED lamp is fixed relative to the wire clamp; the luminous wire comprises a wire body, the wire body comprises a light-transmitting wrapping sleeve, the wire body further comprises a standby extension wire, and the extension wire is arranged in the wrapping sleeve and extends along the length direction of the wrapping sleeve.

2. The light-emitting wire structure according to claim 1, further comprising a wire clip cover, wherein a cavity is further disposed in the wire clip, and the LED lamp extends into the cavity and abuts against the end of the optical fiber in the cavity.

3. The light-emitting wire structure of claim 1, wherein the light-emitting wire is at least one of a charging wire and a data wire.

4. The light-emitting wire structure according to claim 3, further comprising a controller, wherein the LED lamps are connected to the controller, and at least one of the LED lamps is disposed corresponding to at least one of the optical fibers.

5. The light-emitting wire structure of claim 4, wherein the optical fibers correspond to the LED lamps one to one, and at least three of the optical fibers are disposed in the sheath and extend spirally along the length direction of the sheath.

6. The light wire structure of claim 3, wherein said line card is located at an end of said light wire.

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