CN206161927U - Case and electric power communication system are handed over to light - Google Patents

Abstract

The utility model discloses a case and electric power communication system are handed over to light. Wherein, this light hands over case and bag to draw together: light is the unit along separate routes, including a plurality of jumper connection points for to input the light signal of fibre core assigns to in the fibre core of a plurality of jumper connection points, the light analytic unit, the unit is continuous along separate routes with light for according to from light along separate routes the light signal of the proportion of predetermineeing told of unit obtain the luminous power that a plurality of jumper connection points of case were handed over to light, data display unit links to each other with the light analytic unit for the luminous power that shows at least one jumper connection point. The utility model provides a light among the prior art hand over the case to jump the high and big technical problem of resource consumption of fine error score.

Description

Optical cross box and power communication system

Technical field

This utility model is related to field of power communication, in particular to a kind of optical cross box and power communication system.

Background technology

Light cross-connecting box is mainly used in the Cheng Duan of local side backbone optical cable in optical fiber telecommunications system and distribution, realizes fibre circuit Protection, connection, distribution and dispatch, be the fibre-optic telecommunication cable network terminal, or relay point is realized fine row, jumper wire optical cable welding and connect Enter requisite equipment.

In using traditional light cross-connecting box network, jumping fiber construction and maintenance management are carried out mainly by manual type, due to applying Work order position construction technology and construction level are uneven, cause to adjust fine error rate height and jumper connection repeatedly pollutes end face repeatedly, add Jumper connection Business Information is not accurate enough, not complete enough, for these resources, there are problems that in construction management it is a large amount of, final-period management be stranded Difficulty, takes the human resourcess of the moon 30% during O＆M, and especially in ruthless area, winter and summer is to light cross-connecting box shadow Ring big, cause optical property decay greatly, processing procedure is not directly perceived, affects troubleshooting efficiency.

For optical cross box jumping fiber error rate of the prior art is high and the big problem of resource consumption, not yet propose at present effective Solution.

Utility model content

This utility model embodiment provides a kind of optical cross box and power communication system, of the prior art at least to solve Optical cross box jumping fiber error rate height and the big technical problem of resource consumption.

According to the one side of this utility model embodiment, there is provided a kind of optical cross box and, including：Optical branching unit, bag Multiple jumper connection points are included, for the optical signal of input fibre core is assigned in the fibre core of multiple jumper connection points；Light analytic unit, with optical branching Unit is connected, and the optical signal of the preset ratio separated from optical branching unit for basis obtains the light of multiple jumper connection points of optical cross box Power；Data display unit, is connected with light analytic unit, for showing the luminous power of 1 jumper connection point.

Further, above-mentioned optical branching unit includes beam splitter.

Further, above-mentioned beam splitter bores beam splitter to draw.

Further, above-mentioned smooth analytic unit includes：Visual analysor part, is connected with optical branching unit, for collection from light The optical signal of preset ratio is converted to corresponding magnitude of voltage by the optical signal of the preset ratio that branching unit is separated, and to default The corresponding magnitude of voltage of optical signal of ratio is amplified.

Further, light analytic unit also includes：Digital processing unit, is connected with visual analysor part, for by after amplification Magnitude of voltage is converted to optical power value.

Further, light analytic unit also includes：Processor, is connected with visual analysor part, for controlling visual analysor part Operation.

Further, processor is additionally operable to be determined according to the luminous power of multiple jumper connection points in optical signal cutover carries out light letter Number cutting jumper connection point.

Further, data display unit includes：LCDs.

Further, preset ratio is 1%.

Further, optical cross box also includes：Optical fiber accepting unit, including disk coil holder, use up-winding fiber.

In this utility model embodiment, the optical signal for being input into fibre core is assigned to by multiple jumper connection points by optical branching unit In fibre core, by the light analytic unit that is connected with optical branching unit according to the optical signal of the preset ratio separated from optical branching unit The luminous power of multiple jumper connection points of optical cross box is obtained, and at least one is shown by the data display unit being connected with light analytic unit The luminous power of jumper connection point.Such scheme realizes the visualization of optical cross box, during daily O＆M, visual using optical cross box The characteristics of change, shows the luminous power of jumper connection point in real time, contributes to pinpointing the problems in time and process in time, during O＆M, such as runs into The cutover of optical signal, using the data that visualization optical cross box shows, is accurately positioned the jumper connection point of cutover optical signal, effectively subtracts Few maloperation, so as to solve optical cross box jumping fiber error rate height of the prior art and the big technical problem of resource consumption.

Description of the drawings

Accompanying drawing described herein is used for providing further understanding to of the present utility model, constitutes the part of the application, Schematic description and description of the present utility model is used to explain this utility model, does not constitute to of the present utility model improper Limit.In the accompanying drawings：

Fig. 1 is a kind of structural representation of the optical cross box according to prior art；

Fig. 2 is the schematic diagram of a kind of optional light analytic unit according to the embodiment of the present application；And

Fig. 3 is to a kind of schematic diagram of optional optical cross box according to the embodiment of the present application.

Specific embodiment

In order that those skilled in the art more fully understand this utility model scheme, below in conjunction with this utility model reality The accompanying drawing in example is applied, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described Embodiment is only the embodiment of this utility model part, rather than the embodiment of whole.Based on the reality in this utility model Example is applied, the every other embodiment obtained under the premise of creative work is not made by those of ordinary skill in the art is all answered When the scope for belonging to this utility model protection.

It should be noted that specification and claims of the present utility model and the term " first " in above-mentioned accompanying drawing, " second " etc. is for distinguishing similar object, without being used to describe specific order or precedence.It should be appreciated that so The data for using can be exchanged in the appropriate case, so that embodiment of the present utility model described herein can be with except at this In diagram or describe those beyond order implement.Additionally, term " comprising " and " having " and their any deformation, meaning Figure is that covering is non-exclusive to be included, and for example, a series of system, product or the equipment for containing units is not necessarily limited to clearly arrange Those units for going out, but may include other units clearly do not list or intrinsic for these products or equipment.

Embodiment 1

According to this utility model embodiment, there is provided a kind of embodiment of optical cross box, Fig. 1 are the one kind according to prior art The structural representation of optical cross box, as shown in figure 1, the optical cross box includes：

Optical branching unit 10, including multiple jumper connection points, for the optical signal of input fibre core to be assigned to the fibre of multiple jumper connection points In core.

Specifically, optical branching unit is one of most important passive device in optical fiber link, with multiple inputs and many Individual jumper connection point, for the light beam in a fibre core is broadcast in multiple fibre cores by physical channel, it is therefore an objective to improve bamboo pole light The utilization ratio of line, reduces the logarithm of bamboo pole optical fiber.

Light analytic unit 12, is connected with optical branching unit, the light of the preset ratio separated from optical branching unit for basis Signal obtains the luminous power of multiple jumper connection points of optical cross box.

Specifically, above-mentioned smooth analytic unit obtains optical cross box by the optical signal of the preset ratio obtained from optical branching unit The luminous power of multiple jumper connection points, above-mentioned luminous power can be used for judging whether the luminous power of jumper connection point reality is normal.

Data display unit 14, is connected with light analytic unit, for showing the luminous power of 1 jumper connection point.

Specifically, above-mentioned data display unit is used for the luminous power for showing jumper connection point.

In a kind of optional embodiment, light beam light hand over case include 30 jumper connection points, then light analytic unit can detect this 30 The luminous power of individual jumper connection point, and the luminous power for detecting each the jumper connection point for obtaining is transmitted to data display unit, data display Unit is shown to the luminous power of jumper connection point.

In an alternative embodiment, as data display unit shows that the form of the luminous power of jumper connection point can be The form of port numbers-optical power value, allows the user to corresponding to port numbers different in optical cross box read corresponding smooth work( Rate.

In another optional embodiment, data display unit is gone back in addition to showing the op-tical power information of jumper connection point The warning message of optical cross box can be shown, for example, any one optical cross box optical power value beyond default safety range, Then data display unit can show corresponding warning message.

In the 4th kind of optional embodiment, in the case where optical signal cutover is run into, data display unit can also show Show the port numbers of the jumper connection point obtained according to the identification of the luminous power of each jumper connection point.

Herein it should be noted that realizing each jumper connection point light work(of optical cross box by light analytic unit and data display unit Rate is shown in real time, it is possible to increase positioning optical fiber jumper connection positional accuracy, so that optical cross box occupation condition is very clear, It is convenient to manage, it is easy to safeguard.

The above embodiments of the present application are assigned to the fibre core of multiple jumper connection points by the optical signal for being input into fibre core by optical branching unit In, obtained according to the spectroscopic signal of the preset ratio separated from optical branching unit by the light analytic unit being connected with optical branching unit To the luminous power of multiple jumper connection points of optical cross box, at least one jump is shown by the data display unit being connected with light analytic unit The luminous power of contact.Such scheme realizes the visualization of optical cross box, during daily O＆M, is visualized using optical cross box The characteristics of show in real time the luminous power of jumper connection point, contribute to pinpointing the problems in time and process in time, during O＆M, such as run into light The cutover of signal, using the data that visualization optical cross box shows, is accurately positioned the jumper connection point of cutover optical signal, effectively reduces Maloperation, so as to solve optical cross box jumping fiber error rate height of the prior art and the big technical problem of resource consumption.

Optionally, according to the above embodiments of the present application, optical branching unit includes beam splitter.

Optionally, according to the above embodiments of the present application, beam splitter bores beam splitter to draw.

Beam splitter is divided into planar waveguide-type fiber splitter and fused biconical taper beam splitter by production technology.Both devices exist Each advantageous in terms of performance and price, two kinds of Technologies are also all constantly being upgraded, and constantly overcome respective shortcoming.Selected by the application It is 1/10th with cone beam splitter splitting ratio is drawn.

Optionally, according to the above embodiments of the present application, light analytic unit includes：

Visual analysor part, is connected with optical branching unit, for gathering the light letter of the preset ratio separated from optical branching unit Number, the optical signal of preset ratio is converted to into corresponding magnitude of voltage, and the corresponding magnitude of voltage of optical signal to preset ratio is carried out Amplify.

Due to the ratio for the optical signal of analyzing jumper connection point it is less, it is therefore desirable to the voltage letter is converted to by optical signal Number it is amplified, and the actual luminous power of jumper connection point after being amplified according to preset ratio, can be obtained.

Optionally, according to the above embodiments of the present application, light analytic unit also includes：

Digital processing unit, is connected with visual analysor part, for the magnitude of voltage after amplification is converted to optical power value.

Due to obtained by visual analysor part be jumper connection point the corresponding magnitude of voltage of luminous power, if directly aobvious in numeral Show that unit shows magnitude of voltage, need conversion just obtain the actual luminous power of jumper connection point, therefore the said equipment adopts digital processing Magnitude of voltage is converted to corresponding luminous power by device, to be intuitively shown in digital display unit.

Fig. 2 is the schematic diagram of a kind of optional light analytic unit according to the embodiment of the present application, with reference to shown in Fig. 2, key light By optical branching unit, light analytic unit obtains the spectroscopic signal of wherein preset ratio to signal, and it is corresponding that analysis obtains luminous power After the signal of telecommunication (such as voltage), the signal of telecommunication is processed by digital processing unit, obtain the actual luminous power of jumper connection point, and it is defeated Go out to digital output module, digital output module is connected with digital display unit, obtained by digital processing unit for output The point power of point of adjustment.

Optionally, according to the above embodiments of the present application, light analytic unit also includes：

Processor, is connected with visual analysor part, for controlling the operation of visual analysor part.

Optionally, according to the above embodiments of the present application, processor is additionally operable in optical signal cutover according to multiple jumper connection points Luminous power determine into traveling optical signal cutting jumper connection point.

In a kind of optional embodiment, when traveling optical signal cutover is entered, in can detecting multiple jumper connection points, luminous power is jumped The jumper connection point of change, according to the display on digital display unit, can obtain the port numbers of jumper connection point, may thereby determine that cutover is It is no correct.

Optionally, according to the above embodiments of the present application, data display unit includes：LCDs.

Optionally, according to the above embodiments of the present application, preset ratio is 1%.

Optionally, according to the above embodiments of the present application, optical cross box also includes：Optical fiber accepting unit, including disk coil holder, with receipts Facial expression is fine.

Fig. 3 is to a kind of schematic diagram of optional optical cross box, with reference to shown in Fig. 3, including light according to the embodiment of the present application The analysis of host rack, optical branching unit and light and data display unit, light analytic unit detect each in optical branching unit The luminous power of jumper connection point, is shown by data display unit.

Above-mentioned this utility model embodiment sequence number is for illustration only, does not represent the quality of embodiment.

In above-described embodiment of the present utility model, the description to each embodiment all emphasizes particularly on different fields, in certain embodiment There is no the part described in detail, may refer to the associated description of other embodiment.

The above is only preferred implementation of the present utility model, it is noted that for the common skill of the art For art personnel, on the premise of without departing from this utility model principle, some improvements and modifications can also be made, these improve and Retouching also should be regarded as protection domain of the present utility model.

Claims (10)

1. a kind of optical cross box, it is characterised in that include：

Optical branching unit, including multiple jumper connections point, for the optical signal of input fibre core to be assigned to the fibre core of multiple jumper connection points In；

Light analytic unit, is connected with the optical branching unit, the preset ratio separated from the optical branching unit for basis Optical signal obtains the luminous power of multiple jumper connection points of the optical cross box；

Data display unit, is connected with the smooth analytic unit, for showing the luminous power of 1 jumper connection point.

2. optical cross box according to claim 1, it is characterised in that the optical branching unit includes beam splitter.

3. optical cross box according to claim 2, it is characterised in that the beam splitter is to draw cone beam splitter.

4. optical cross box according to claim 1, it is characterised in that the smooth analytic unit includes：

Visual analysor part, is connected with the optical branching unit, for gathering the preset ratio separated from the optical branching unit The optical signal of the preset ratio is converted to corresponding magnitude of voltage, and the optical signal correspondence to the preset ratio by optical signal Magnitude of voltage be amplified.

5. optical cross box according to claim 4, it is characterised in that the smooth analytic unit also includes：

Digital processing unit, is connected with the visual analysor part, is converted to optical power value for the magnitude of voltage after by amplification.

6. optical cross box according to claim 5, it is characterised in that the smooth analytic unit also includes：

Processor, is connected with the visual analysor part, for controlling the visual analysor part operation.

7. optical cross box according to claim 6, it is characterised in that the processor be additionally operable in optical signal cutover according to The luminous power of the plurality of jumper connection point determines the jumper connection point for carrying out the optical signal cutting.

8. optical cross box according to claim 1, it is characterised in that the data display unit includes：LCDs.

9. optical cross box according to claim 1, it is characterised in that the preset ratio is 1%.

10. optical cross box as claimed in any of claims 1 to 9, it is characterised in that the optical cross box also includes：

Optical fiber accepting unit, including disk coil holder, use up-winding fiber.