CN201600961U - Micro photoelectric composite unit - Google Patents

Abstract

The utility model relates to a micro photoelectric composite unit for the connection and conduction between electronic elements/devices, which bonds 2 to 10 metal wires with 1 to 2 optical fibers, wherein the adjacent metal wires with the diameter of 0.1 to 0.4mm are mutually insulated and separated. The micro photoelectric composite unit can form micro photoelectric composite ribbon cables and composite bundle cables respectively. In the micro photoelectric composite unit which is used for the connection between electronic elements/devices in a transmission link, the metal wires are used for power transmission between electronic elements/devices and the optical fibers are used for data transmission, thereby greatly enhancing the data exchange rate between electronic elements/devices; the micro photoelectric composite unit has the characteristics of simple structure, reasonable arrangement, small volume, light weight and excellent bending performance, and is quite suitable for narrow bending space in computer hardware and elements/devices; and the micro photoelectric composite unit with convenient use can remarkably speed up the photoelectric interface operation of computer communication and consumptive electronic products in the future.

Description

A kind of micro photo electric recombiner unit

Technical field

The utility model relates to a kind of micro photo electric recombiner unit that is used for connecting between electronic devices and components conduction, and it can make the data between electronic devices and components enter the optical communication stage.

Background technology

The plain conductor ways of connecting is mostly adopted in connection conduction in the existing electronic equipment between electronic devices and components, commonly used is many miniature band cables arranged side by side, plain conductor is not only born the electric power transfer between components and parts but also is carried out the transmission of data, because the amount and the speed of plain conductor transmission data are limited, have therefore also limited the exchanges data speed between electronic devices and components greatly.Optical Fiber Transmission has unrivaled superiority bandwidth with respect to other medium transmission, replace all transmission interfaces such as present USB. Ethernet by Optical Fiber Transmission, wire transmission in the LAN is promoted to upgrade to the optical fiber framework, allow the data between electronic devices and components enter the optical communication epoch, promote optical fiber from be that the master spreads to all consumption electronic products with the local side in the past, will become the main flow trend of present research promotion gradually.

Summary of the invention

Technical problem to be solved in the utility model is the deficiency that exists at above-mentioned prior art and a kind of micro photo electric recombiner unit that is used for electric power and transfer of data between the electronic devices and components is provided.

The utility model is that the technical scheme that problem adopted of the above-mentioned proposition of solution is: plain conductor and bonding fiber are integral, described optical fiber is 1～2, described plain conductor is 2～10, the plain conductor conductor diameter is 0.1～0.4mm, mutually insulated or separately between the adjacent metal lead.

Press such scheme, described plain conductor is coated with insulating barrier.

Press such scheme, parallel bonding being integral side by side with optical fiber of described plain conductor by the bonding coating of binding agent and through ultra-violet curing, constitutes the micro photo electric composite band.

Press such scheme, described micro photo electric composite band cross-sectional width is 0.8mm～5mm, and thickness is 0.2mm～1.0mm.

Press such scheme, outside the micro photo electric composite band, coat oversheath or fire-retardant oversheath, constitute micro photo electric composite band cable; Described micro photo electric composite band cable cross-sectional width is 1.0mm～6.0mm, and thickness is 0.4mm～1.5mm.

Press such scheme, described plain conductor and optical fiber bonding being integral of reuniting around a center, bonding and by binding agent through ultra-violet curing, constitute the compound bundle of micro photo electric.

Press such scheme, described every plain conductor extexine color is different, and the outer coat color of every optical fiber is different.

Press such scheme, described plain conductor is parallel bonding with optical fiber; Perhaps, described plain conductor becomes unidirectional strand bonding or become the SZ strand bonding with optical fiber.

Press such scheme, outside the compound bundle of micro photo electric, coat oversheath or fire-retardant oversheath, constitute the compound bundle cable of micro photo electric.

Press such scheme, the diameter of the compound bundle cable of described micro photo electric is 1.2mm～3.5mm.

The beneficial effects of the utility model are: 1, as the connecting link that is used in the transmission link between electronic devices and components, plain conductor is used for the electric power transfer between electronic devices and components, optical fiber is used for transfer of data, and this will improve the exchanges data speed between electronic devices and components greatly; 2, simple in structure, rationally distributed between lead and optical fiber, lead and the lead; Volume is little, in light weight behind the preparation stranding, and the bending property excellence is highly suitable for the narrow curved space in computer hardware, the components and parts; And easy to use, will make the operation of following dataphone and consumption electronic products photoelectricity interface quicker.

Description of drawings

Fig. 1 is the transversary profile of an embodiment of the utility model.

Fig. 2 is the transversary profile of another embodiment of the utility model.

Fig. 3 is the radial structure profile of the 3rd embodiment of the utility model.

Embodiment

Further specify embodiment of the present utility model below in conjunction with accompanying drawing.

Embodiment 1 as shown in Figure 1, be the micro photo electric composite band, include 2,4 plain conductors 3 of 2 optical fiber, parallel bonding being integral side by side of plain conductor with optical fiber, fill and coat by binding agent 1, and through the ultraviolet light polymerization typing, in the middle of wherein 2 optical fiber are positioned at, respectively there are 2 plain conductors both sides, the outer coat color of 2 optical fiber is different, and plain conductor is coated with insulating barrier, and the color of 4 plain conductor insulating barriers is different.The position of plain conductor and optical fiber can exchange on request.

Embodiment 2 as shown in Figure 2, the difference of it and embodiment 1 is to coat one deck oversheath 4 outside described micro photo electric composite band, oversheath can be fire-retardant oversheath, constitutes micro photo electric composite band cable.

Embodiment 3 as shown in Figure 3, be the compound bundle cable of micro photo electric, include 2 optical fiber 2,5 plain conductors 3, optical fiber and plain conductor with middle 1 plain conductor be the center by binding agent 1 bonding being integral, the parallel placement with plain conductor of optical fiber is extended forward, the outer coat color of 2 optical fiber is different, plain conductor is coated with insulating barrier, and the color of 5 plain conductor insulating barriers is different.The compound bundle of described micro photo electric coats one deck oversheath 4 outward, and oversheath can be fire-retardant oversheath, constitutes the compound bundle cable of micro photo electric.

Claims (10)

1. micro photo electric recombiner unit, it is characterized in that plain conductor and bonding fiber are integral, described optical fiber is 1～2, and described plain conductor is 2～10, the plain conductor conductor diameter is 0.1mm～0.4mm, mutually insulated or separately between the adjacent metal lead.

2. by the described micro photo electric recombiner unit of claim 1, it is characterized in that described plain conductor is coated with insulating barrier.

3. by claim 1 or 2 described micro photo electric recombiner units, it is characterized in that parallel bonding being integral side by side of described plain conductor,, constitute the micro photo electric composite band by the bonding coating of binding agent and through ultra-violet curing with optical fiber.

4. by the described micro photo electric recombiner unit of claim 3, it is characterized in that described micro photo electric composite band cross-sectional width is 0.8mm～5mm, thickness is 0.2mm～1.0mm.

5. by the described micro photo electric recombiner unit of claim 4, it is characterized in that outside the micro photo electric composite band, coating oversheath or fire-retardant oversheath, constitute micro photo electric composite band cable.

6. by the described micro photo electric recombiner unit of claim 5, it is characterized in that described micro photo electric composite band cable cross-sectional width is 1.0mm～6.0mm, thickness is 0.4mm～1.5mm.

7. by claim 1 or 2 described micro photo electric recombiner units, it is characterized in that described plain conductor and optical fiber bonding being integral of reuniting around a center, bonding and by binding agent through ultra-violet curing, constitute the compound bundle of micro photo electric.

8. by the described micro photo electric recombiner unit of claim 7, it is characterized in that the compound intrafascicular every plain conductor extexine color of described micro photo electric is different, the outer coat color of every optical fiber is different.

9. by the described micro photo electric recombiner unit of claim 8, it is characterized in that the compound intrafascicular plain conductor of described micro photo electric is parallel bonding with optical fiber; Perhaps, described plain conductor becomes unidirectional strand bonding or become the SZ strand bonding with optical fiber.

10. by the described micro photo electric recombiner unit of claim 9, it is characterized in that outside the compound bundle of micro photo electric, coating oversheath or fire-retardant oversheath, constitute the compound bundle cable of micro photo electric; The diameter of the compound bundle cable of described photoelectricity is 1.2mm～3.5mm.

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