CN103439769A - Optical fiber core butt joint matrix plate - Google Patents

Abstract

An embodiment of the invention discloses an optical fiber core butt joint matrix plate. The optical fiber core butt joint matrix plate comprises a plurality of butt joint devices, each butt joint device comprises butt joint holes, a plurality of arc holes and a plurality of protrusions, wherein the arc holes are distributed in the circumferential direction of each butt joint hole, the two ends of each arc hole are bent in the direction far away form each arc hole; the protrusions are located on the inner wall of each butt joint hole, are arranged in the radial direction of the arc holes, and are opposite to the arc holes, and the protrusions are in one-to-one correspondence with the arc holes. By means of the optical fiber core butt joint matrix plate, when an optical fiber network system conducts data exchange transmission, automatic butt joint of optical fiber cores can be achieved through the optical fiber core butt joint matrix plate, and therefore exchange of optical transmission data is achieved, labor participation is greatly reduced, and a great amount of manpower and material resources are saved.

Description

A kind of fiber core docking matrix plate

Technical field

The present invention relates to technical field of optical fiber communication, relate in particular to a kind of fiber core docking matrix plate.

Background technology

Along with the develop rapidly of power grid construction and the continuous lifting of power system device robotization, optical fiber power communication net has also obtained unprecedented development.

At present, basic bearer network-fiber optic network as the optical-fibre communications transmission, its operation maintenance work also is in original artificial mode, usually need manually to the on-the-spot jumping fiber that goes, to operate to realize the docking exchange between different fiber, but be limited by all multi-step impacts such as loaded down with trivial details of dispersion, the Manual Switch operation in geographic position, in routine duties, such manually-operated workload is huge and time-consuming, therefore, how to realize fiber core automatic butt exchange the problem of being concerned about very much for people.

Summary of the invention

For solving the problems of the technologies described above, the embodiment of the present invention provides a kind of optical fiber cable core docking matrix plate, so that optical fiber network system is when carrying out the exchanges data transmission, realize the automatic butt of fiber core by this optical fiber cable core docking matrix plate, and then realize the exchange of Optical Fiber Transmission data, greatly reduce artificial participation, saved a large amount of manpower and materials.

For addressing the above problem, the embodiment of the present invention provides following technical scheme:

A kind of fiber core docking matrix plate comprises: a plurality of docking facilitiess, and described docking facilities comprises:

Butt hole;

A plurality of arcuate sockets that circumferentially distribute along described butt hole, the two ends of described arcuate socket deviate from the direction bending of described butt hole along described arcuate socket;

A plurality of inwalls that are positioned at described butt hole, and along the projection radially be oppositely arranged with described arcuate socket of described arcuate socket, described projection is corresponding one by one with described arcuate socket.

Preferably, described arcuate socket upwards was uniformly distributed in the week of described butt hole.

Preferably, the number of described arcuate socket is 4.

Preferably, described fiber core docks the rectangle that is shaped as of matrix plate.

Compared with prior art, technique scheme has the following advantages:

The technical scheme that the embodiment of the present invention provides comprises a plurality of docking facilitiess, described docking facilities comprises butt hole, when concrete operations, only need in advance the cord circuit optical fiber for connecting fiber core to be docked be connected in to two different butt holes, carry again the linker of outside line fiber core to be docked by control, outside line fiber core to be docked is transported to the position of described butt hole, and outside line fiber core to be docked is inserted in described butt hole, can complete the docking of outside line fiber core, reasonable in design, simple to operate, can greatly reduce artificial participation, a large amount of manpower and materials have been saved.

And, in the technical scheme that the embodiment of the present invention provides, described docking facilities also comprises: a plurality of arcuate sockets that circumferentially distribute along described butt hole, and on a plurality of inwalls that are positioned at described butt hole, and the projection radially be oppositely arranged with described arcuate socket along described arcuate socket, wherein, the two ends of described arcuate socket deviate from the direction bending of described butt hole along described arcuate socket, and corresponding one by one with described projection.

Due to the structure in the described butt hole of insertion of the linker of fixing outside line fiber core described to be docked, the structure that described cord circuit optical fiber inserts in described butt hole is identical with the diameter of described butt hole, therefore, the technical scheme that the embodiment of the present invention provides, will fix the described linker wait docking the outside line fiber core insert described butt hole in and described cord circuit optical fiber is inserted to described butt hole in the time, described projection can make progress in the footpath of described arcuate socket, the structure of inserting in described butt hole is caused to extruding, increase described projection and insert the contact between the structure in described butt hole, thereby strengthen while utilizing butt hole to carry out the light signal exchange, steadiness between outside line optical fiber described to be docked and cord circuit optical fiber.

The accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, below will the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The fiber core that Fig. 1 provides for the embodiment of the present invention docks the structural representation of matrix plate;

The structural representation of the docking facilities that Fig. 2 provides for the embodiment of the present invention;

Principle schematic when Fig. 3 is specifically used for the 24 core fibre fibre core docking matrix plates that provide in one embodiment of the invention;

Cord circuit optical fiber connection diagram when Fig. 4 specifically implements for the 24 core fibre fibre core docking matrix plates that provide in one embodiment of the invention.

Embodiment

Just as described in the background section, usually utilize in prior art manually and operate to realize the docking exchange between different fiber to the on-the-spot jumping fiber that goes, but affected by all multi-steps such as loaded down with trivial details of dispersion, the Manual Switch operation in geographic position, cause this manually operated alternative to be wasted time and energy.

In view of this, the embodiment of the present invention provides a kind of fiber core docking matrix plate, comprising: a plurality of docking facilitiess, and described docking facilities comprises: butt hole; A plurality of arcuate sockets that circumferentially distribute along described butt hole, the two ends of described arcuate socket deviate from the direction bending of described butt hole along described arcuate socket; On a plurality of inwalls that are positioned at described butt hole, and, along the projection radially be oppositely arranged with described arcuate socket of described arcuate socket, described projection is corresponding one by one with described arcuate socket.

The fiber core docking matrix plate that the embodiment of the present invention provides comprises a plurality of docking facilitiess, described docking facilities comprises butt hole, when concrete operations, only need in advance the cord circuit optical fiber for connecting fiber core to be docked be connected in to two different butt holes, carry again the linker of outside line fiber core to be docked by control, outside line fiber core to be docked is transported to the position of described butt hole, and outside line fiber core to be docked is inserted in described butt hole, can complete the docking of outside line fiber core, reasonable in design, simple to operate, can greatly reduce artificial participation, a large amount of manpower and materials have been saved.

And, in the technical scheme that the embodiment of the present invention provides, described docking facilities also comprises: a plurality of arcuate sockets that circumferentially distribute along described butt hole, and on a plurality of inwalls that are positioned at described butt hole, and the projection radially be oppositely arranged with described arcuate socket along described arcuate socket, wherein, the two ends of described arcuate socket deviate from the direction bending of described butt hole along described arcuate socket, and corresponding one by one with described projection.Because the linker of fixing light fibre core described to be docked inserts the structure in described butt hole, the structure that described cord circuit optical fiber inserts in described butt hole is identical with the diameter of described butt hole, therefore, the technical scheme that the embodiment of the present invention provides, will fix the described linker wait docking fiber core insert described butt hole in and described cord circuit optical fiber is inserted to described butt hole in the time, described projection can make progress in the footpath of described arcuate socket, the structure of inserting in described butt hole is caused to extruding, increase described projection and insert the contact between the structure in described butt hole, thereby strengthen while utilizing butt hole to carry out the light signal exchange, steadiness between outside line optical fiber described to be docked and cord circuit optical fiber.

For above-mentioned purpose of the present invention, feature and advantage can more be become apparent, below in conjunction with accompanying drawing, the specific embodiment of the present invention is described in detail.

Set forth detail in the following description so that fully understand the present invention.But the present invention can be different from alternate manner described here and implements with multiple, and those skilled in the art can be in the situation that do similar popularization without prejudice to intension of the present invention.Therefore the present invention is not subject to the restriction of following public concrete enforcement.

Embodiment mono-:

The described fiber core docking matrix plate of below take is introduced the fiber core docking matrix plate that the embodiment of the present invention was provided as 24 core docking matrix plates as example, it should be noted that, those skilled in the art should be understood that the number of butt hole in the present embodiment can be adjusted according to the number of fibers to be docked of access, and the present invention does not do restriction to this.

As shown in Figure 1, the fiber core docking matrix plate that the embodiment of the present invention provides comprises a plurality of docking facilitiess 1, as shown in Figure 2, described docking facilities 1 comprises butt hole 11, preferably, described docking facilities 1 is square matrices on described fiber core docking matrix plate to be arranged, and is arranged in the array of 24*24.In practical operation, in advance a side of described butt hole 11 is linked together by cord circuit optical fiber, opposite side is for inserting the fixedly linker of outside line optical fiber one end to be docked, wherein, a cord circuit optical fiber connects a pair of butt hole 11, and the two ends of this root cord circuit optical fiber are inserted into a pair of butt hole 11 from a side of described docking matrix plate respectively.

In one embodiment of the invention, described docking matrix plate be shaped as rectangle, but in other embodiments of the invention, the shape of described docking matrix plate can also be other figures, the present invention does not do restriction to this, be determined on a case-by-case basis.

In one embodiment of the invention, described butt hole 11 is preferably cylindrical, and in other embodiments of the invention, described butt hole 11 can also be other shapes, and the present invention does not do restriction to this, be determined on a case-by-case basis.The described butt hole 11 of below only take describes as example as cylindrical.

In the present embodiment, butt hole 11 to above-mentioned quadrate array is divided, by the corresponding a line butt hole 11 of each outside line optical fiber to be docked, it should be noted that, the concept of row and column is not absolute, neither be absolute as choosing of coordinate system, then change an angle while seeing, " OK " originally also can be regarded new " row " as.Therefore, those skilled in the art should be understood that, in the present embodiment, " OK " and " row " can exchange.The corresponding a line butt hole 11 of each outside line optical fiber to be docked of below might as well take describes as example, and the linker of fixing every outside line optical fiber to be docked can only be limited on the row that this outside line optical fiber to be docked is corresponding and moves, and can only be inserted in the butt hole 11 of this row, realize butt hole 11 is divided by row.

As shown in Figure 3, butt hole 11 on docking matrix plate in the embodiment of the present invention is classified example as with the square array that is arranged in 24*24, like this due to the corresponding a line butt hole of each outside line optical fiber to be docked, therefore the docking matrix plate that has the quadrate array butt hole that is arranged in 24*24 can only maximumly access 24 outside line optical fiber, is successively A01～A24.

In one embodiment of the invention, while in advance a side of described butt hole 11 being linked together by cord circuit optical fiber, adopt cord circuit connection scheme as shown in Figure 4.Wherein, only show the cord circuit optical fiber that connects the first row and the second row in Fig. 4, below connection scheme is elaborated.

The butt hole of the first row first row is connected by a cord circuit optical fiber with the butt hole of the second row first row, the butt hole of the first row secondary series is connected by a cord circuit optical fiber with the butt hole of the third line first row, the like, the butt hole of the first row the 7th row is connected by a cord circuit optical fiber with the butt hole of the 8th row first row, the rest may be inferred, the butt hole of the first row that the j row butt hole of the first row is capable with j+1 is connected by a cord circuit optical fiber, and wherein the span of j is the integer of the closed interval of from 1 to 23 formation.

The butt hole of the second row secondary series is connected by a cord circuit optical fiber with the butt hole of the third line secondary series, the like, the butt hole of the second row the 7th row is connected by a cord circuit optical fiber with the butt hole of the 8th row secondary series, the rest may be inferred, the butt hole of the secondary series that the j row butt hole of the second row is capable with j+1 is connected by a cord circuit optical fiber, and wherein the span of j is the integer of the closed interval of from 2 to 23 formation.

The like, the butt hole of the i row that the butt hole of the capable j row of i is capable with j+1 is connected by a cord circuit optical fiber, and wherein the span of j is the integer of the closed interval from i to 23 formation.

When the message exchange of carrying out between any two outside line optical fiber, at first search out a butt hole at two that need respectively to be docked outside line optical fiber to be docked in corresponding a line butt hole, the described a pair of butt hole searched out connects by a cord circuit optical fiber from a side of docking matrix plate, the opposite side free time, and using the described a pair of butt hole of seeking as the target butt hole; Then, to move to respectively each self-corresponding target butt hole for the fixing linker of two outside line optical fiber to be docked of docking that needs, and insert from the end of free time, the end face that makes to be fixed on the outside line optical fiber to be docked in described two linkers docks with the two ends of the cord circuit optical fiber inserted from opposite side in the target butt hole of its insertion respectively, can complete the docking of two outside line optical fiber to be docked.

Below with a concrete example, describe, for example, if need to realize the exchange between outside line optical fiber A02 and A05, and the second row butt hole on the docking matrix plate shown in outside line optical fiber A02 corresponding diagram 3, and the fifth line butt hole on the corresponding docking of outside line optical fiber A05 matrix plate, need in the butt hole of the second row and fifth line, search respectively a butt hole, and an end of these two butt holes connects by cord circuit optical fiber, the other end free time, then the butt hole of this being found is as the target butt hole, for example, in Fig. 3, the butt hole (being designated as 11c) of the second row the 4th row and butt hole (being designated as a 11d) end of fifth line secondary series are connected by cord circuit optical fiber (being designated as 2b), the other end free time, then fixedly the linker 32 of outside line optical fiber A02 to be docked moves to butt hole 11c place, and be inserted into butt hole 11c from the end of free time, the fixing linker 35 of outside line optical fiber A05 to be docked is moved to butt hole 11d place, and be inserted into butt hole 11d from the end of free time.When linker 32 and linker 35 after the end of free time is inserted into respectively butt hole 11c and 11d, being fixed on the end of the outside line optical fiber A02 to be docked in linker 32 docks with an end that inserts the cord circuit optical fiber 2b butt hole 11c from the other end, thereby make outside line optical fiber A02 to be docked and cord circuit optical fiber 2b form optical path, make can intercourse light signal between the two; In like manner, being fixed on the end of the outside line optical fiber A05 to be docked in linker 35 docks with the other end that inserts the cord circuit optical fiber 2b butt hole 11d from the other end, thereby make outside line optical fiber A05 to be docked and cord circuit optical fiber 2b form optical path, make can intercourse light signal between the two, can between outside line optical fiber A02 to be docked, cord circuit optical fiber 2b and outside line optical fiber A05 to be docked, form optical path like this, make between outside line optical fiber A02 to be docked and A05 Switched Optical signal mutually.

As can be seen here, the docking matrix plate that the embodiment of the present invention provides, carrying out exchanges data when transmission at optical fiber network system, can realize by man-to-man butt hole in this optical fiber cable core docking matrix plate the automatic butt of outside line fiber core to be docked, and then realize the exchange of different outside line Optical Fiber Transmission data, greatly reduce artificial participation, saved a large amount of manpower and materials.

Continue as shown in Figure 2, described docking facilities 1 also comprises: a plurality of arcuate sockets 12 that circumferentially distribute along described butt hole 11, and the two ends of described arcuate socket 12 deviate from the direction bending of described butt hole 11 along described arcuate socket 12; And on a plurality of inwalls that are positioned at described butt hole 11, and, along the projection 13 radially be oppositely arranged with described arcuate socket 12 of described arcuate socket 12, described protruding 13 is corresponding one by one with described arcuate socket 12.

Preferably, described arcuate socket 12 upwards was uniformly distributed in the week of described butt hole 11.Preferred, the number of described arcuate socket 12 is 4, but the present invention does not do restriction to this.

Due to the structure in the described butt hole 11 of insertion of the linker of fixing light fibre core described to be docked, the structure that described cord circuit optical fiber inserts in described butt hole 11 is identical with the diameter of described butt hole 11, therefore, the technical scheme that the embodiment of the present invention provides, will fix the described linker wait docking fiber core insert described butt hole 11 in and described cord circuit optical fiber is inserted to described butt hole 11 in the time, described protruding 13 can make progress in the footpath of described arcuate socket 12, the structure of inserting in described butt hole 11 is caused to extruding, increase described protruding 13 and insert the contact between the structure in described butt hole 11, thereby strengthen while utilizing butt hole 11 to carry out the light signal exchange, steadiness between outside line optical fiber described to be docked and cord circuit optical fiber.

It should be noted that, the fiber core docking matrix plate provided in the embodiment of the present invention, mainly for facilitating fiber core to be docked proposed scheme in optical fiber communication network, its material can adopt the materials such as stainless steel, aluminium alloy or glass, also takes into account the difficulty or ease of processing in the robust while.In addition, can also be for different demands, according to actual conditions in the specific implementation custom pack for example, containing the fiber core docking matrix plate of varying number butt hole,, if be processed into the fiber core docking matrix plate of 24*24 butt hole, can meet the docking exchange of any 24 core fibre fibre cores.

In sum, the fiber core docking matrix plate that the embodiment of the present invention provides, when concrete operations, only need will be connected in two different butt holes for connecting the cord circuit optical fiber that docks fiber core in advance, carry again the linker of outside line fiber core to be docked by control, the fibre core of outside line optical fiber to be docked is transported to the position of described butt hole, and fibre core that will outside line optical fiber be docked inserts in described butt hole 11, can complete the docking of fiber core, reasonable in design, simple to operate, can greatly reduce artificial participation, a large amount of manpower and materials have been saved.

And, the fiber core provided due to the embodiment of the present invention docks in matrix plate, described docking facilities also comprises: a plurality of arcuate sockets that circumferentially distribute along described butt hole, and on a plurality of inwalls that are positioned at described butt hole, and the projection radially be oppositely arranged with described arcuate socket along described arcuate socket, when being docked, described projection can make progress in the footpath of described arcuate socket, the structure of inserting in described butt hole is caused to extruding, increase described projection and insert the contact between the structure in described butt hole, thereby strengthen while utilizing butt hole to carry out the light signal exchange, steadiness between outside line optical fiber described to be docked and cord circuit optical fiber.

In this instructions, various piece adopts the mode of going forward one by one to describe, and what each part stressed is and the difference of other parts that between various piece, identical similar part is mutually referring to getting final product.

To the above-mentioned explanation of the disclosed embodiments, make professional and technical personnel in the field can realize or use the present invention.Multiple modification to these embodiment will be apparent for those skilled in the art, and General Principle as defined herein can be in the situation that do not break away from the spirit or scope of the present invention, realization in other embodiments.Therefore, the present invention will can not be restricted to embodiment illustrated herein, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (4)

1. a fiber core docking matrix plate, is characterized in that, comprising: a plurality of docking facilitiess, and described docking facilities comprises:

Butt hole;

A plurality of arcuate sockets that circumferentially distribute along described butt hole, the two ends of described arcuate socket deviate from the direction bending of described butt hole along described arcuate socket;

A plurality of inwalls that are positioned at described butt hole, and along the projection radially be oppositely arranged with described arcuate socket of described arcuate socket, described projection is corresponding one by one with described arcuate socket.

2. fiber core docking matrix plate according to claim 1, is characterized in that, described arcuate socket upwards was uniformly distributed in the week of described butt hole.

3. fiber core docking matrix plate according to claim 1, is characterized in that, the number of described arcuate socket is 4.

4. fiber core docking matrix plate according to claim 1, is characterized in that, described fiber core docks the rectangle that is shaped as of matrix plate.

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