CN103293619B - A kind of cross-coupled fibre distribution frame of crossbar system and control method thereof - Google Patents

Abstract

The invention discloses the cross-coupled fibre distribution frame of a kind of crossbar system, comprise optical cross-connect matrix, it is characterized in that: described optical cross-connect matrix comprises multiple longitudinally-moving part of vertically moving and transversely movable horizontal movable part, longitudinally-moving part and horizontal movable part composition structure are the matrixing network arranged in length and breadth; Multifiber jumping fiber, one end of each jumping fiber is connected with external-connected port, is stiff end; The other end of jumping fiber is connected with Green lens or fiber connector, is movable end; Multiple keeper is arranged in matrixing network; Each Green lens or fiber connector are connected with longitudinally-moving part and horizontal movable part respectively, and longitudinally-moving part, horizontal movable part are connected with electromechanical controlling device respectively.The invention also discloses the control method of this fibre distribution frame.The automatic routing configuration that this optical fiber distributing shelf structure is simple, cheap, can realize optical patchcord and control, and can preserve, call optical fiber routing configuration.

Description

A kind of cross-coupled fibre distribution frame of crossbar system and control method thereof

Technical field

The present invention relates to fibre circuit automatic wiring field, is more particularly the cross-coupled fibre distribution frame of a kind of crossbar system (OpticalDistributionFrame is called for short ODF) and control method thereof.

Background technology

Fibre distribution frame is used for Cheng Duan and the distribution of local side backbone optical cable in optical fiber telecommunications system, can realize the connection of fibre circuit, distribution and scheduling easily.Mainly realize the selection of optical routing, its implementation is mainly divided into manual fibre distribution frame, intelligent optical fiber distribution frame several.

Manual fibre distribution frame mainly carries out line matching by artificial plug optical patchcord, and critical piece is end optical fiber flange plate, realizes fixed route select by manually movable part and target optical fiber being carried out docking.If need to change route, then adjust by hand.

Intelligent optical fiber distribution frame realizes automatic Route Selection mainly through photoswitch, arranges routing mode carry out line matching according to user.This kind equipment is general comparatively complicated, expensive.

Summary of the invention

The automatic routing configuration that the present invention is directed to the deficiencies in the prior art, and provide a kind of crossbar system cross-coupled fibre distribution frame, this optical fiber distributing shelf structure is simple, cheap, optical patchcord can be realized and control, and can preserve, call optical fiber routing configuration.

The present invention is realized by following technical scheme:

The cross-coupled fibre distribution frame of a kind of crossbar system, comprises optical cross-connect matrix, unlike the prior art: described optical cross-connect matrix comprises

Multiple longitudinally-moving part of vertically moving and transversely movable horizontal movable part, longitudinally-moving part and horizontal movable part composition structure are the matrixing network arranged in length and breadth;

Multifiber jumping fiber, one end of each jumping fiber is connected with external-connected port, is stiff end; The other end of jumping fiber is connected with Green lens or fiber connector, is movable end;

Multiple keeper, each keeper is separately positioned in matrixing network;

Each Green lens or fiber connector are connected with longitudinally-moving part and horizontal movable part respectively, longitudinally-moving part, horizontal movable part are connected with electromechanical controlling device respectively, longitudinally-moving part and horizontal movable part drive Green lens or fiber connector to carry out vertical or horizontal motion, carry out being connected or plugging with keeper.

Described keeper is locating flange.

Described optical cross-connect matrix is N × N cross-connect matrix, and forming structure by N number of longitudinally-moving part of vertically moving and N number of transversely movable horizontal movable part is the matrixing network arranged in length and breadth;

Described jumping fiber is 2N root, and one end of 2N root jumping fiber is connected with 2N external-connected port, is stiff end; The other end of 2N root jumping fiber is connected with 2N Green lens or fiber connector, is movable end; Wherein N number of external-connected port connects longitudinally-moving part, and N number of external-connected port connects horizontal movable part.

The control method of the cross-coupled fibre distribution frame of above-mentioned crossbar system, after the connection that electromechanical controlling device carries out as required calculates, controls horizontal movable part and drives Green lens or fiber connector to be laterally moved to appointment place, then plug in locating flange; Controlling longitudinally-moving part drives Green lens or fiber connector lengthwise movement to this appointment place, then plugs in same locating flange, just completes the Fiber connection of this appointment place.

The automatic routing configuration that this optical fiber distributing shelf structure is simple, cheap, can realize jumping optical fiber and control, and can preserve, call optical fiber routing configuration; Adopt electromechanical controlling device to carry out the selection of optical routing, avoid using expensive photoswitch.

Accompanying drawing explanation

Fig. 1 is the structural representation of the embodiment of the present invention.

In figure, 1. longitudinally-moving part 2. horizontal movable part 3. jumping fiber 4. external-connected port 5. Green lens or fiber connector 6. keeper.

Embodiment

With reference to Fig. 1, the cross-coupled fibre distribution frame of a kind of crossbar system, comprises optical cross-connect matrix, and described optical cross-connect matrix comprises

Multiple longitudinally-moving part 1 of vertically moving and transversely movable horizontal movable part 2, it is the matrixing network arranged in length and breadth that longitudinally-moving part 1 and horizontal movable part 2 form structure;

Multifiber jumping fiber 3, one end of each jumping fiber 3 is connected with external-connected port 4, is stiff end; The other end of jumping fiber 3 is connected with Green lens or fiber connector 5, is movable end;

Multiple keeper 6, each keeper 6 is separately positioned in matrixing network;

Each Green lens or fiber connector 5 are connected with longitudinally-moving part 1 and horizontal movable part 2 respectively, longitudinally-moving part 1, horizontal movable part 2 are connected with electromechanical controlling device respectively, longitudinally-moving part 1 and horizontal movable part 2 drive Green lens or fiber connector 5 to carry out vertical or horizontal motion, carry out being connected or plugging with keeper 6.

Keeper 6 is locating flange, carries out self-align and collimation with locating flange.

Schematically illustrate single longitudinally-moving part and single-row horizontal movable part in Fig. 1, dotted arrow represents the direction of motion of each movable part.

Optical cross-connect matrix is N × N cross-connect matrix, and forming structure by N number of longitudinally-moving part 1 of vertically moving and N number of transversely movable horizontal movable part 2 is the matrixing network arranged in length and breadth;

Jumping fiber 3 is 2N root, and one end of 2N root jumping fiber 3 is connected with 2N external-connected port 4, is stiff end; The other end of 2N root jumping fiber 3 is connected with 2N Green lens or fiber connector 5, is movable end; Wherein N number of external-connected port 4 connects longitudinally-moving part 1, and N number of external-connected port 4 connects horizontal movable part 2.

Electromechanical controlling device is a set of is core device with microcontroller, with stepper motor be drive device, microcontroller is connected with each stepper motor, each stepper motor is connected with longitudinally-moving part 1, horizontal movable part 2 respectively, drives each articulating members with stepper motor.Microcontroller is responsible for recording current configuration state, accepts user's configuration data, and carries out Route Selection according to the routing policy of inner setting, and user's configuration data, by network interface or RS232 serial line interface, carries out Data Transmission Controlling by PC.Routing configuration state is saved as configuration file after execution routing configuration to file, facilitate user to inquire about and call in the future.

The control method of the cross-coupled fibre distribution frame of above-mentioned crossbar system, after the connection that electromechanical controlling device carries out as required calculates, controlling horizontal movable part 2 drives Green lens or fiber connector 5 to be laterally moved to appointment place, then plugs in locating flange; Controlling longitudinally-moving part 1 drives Green lens or fiber connector 5 lengthwise movement to this appointment place, then plugs in same locating flange, just completes the Fiber connection of this appointment place.

External-connected port 4 2N altogether, N number of external-connected port 4 connects longitudinally-moving part 1, is labeled as , , n number of external-connected port 4 connects horizontal movable part 2, is labeled as 1., 2., 3. ...As shown in Figure 1, such as, if require connect for 1.- , 2.- , 3.- , then action is as follows:

1, control horizontal movable part 2 drive the Green lens 1. located or fiber connector 5 be laterally moved to 1.- place, then plug 1.- in the locating flange at place; Control longitudinally-moving part 1 to drive place Green lens or fiber connector 5 lengthwise movement to 1.- place, then plug 1.- in the locating flange at place, complete 1.- connect;

2, control horizontal movable part 2 drive the Green lens 2. located or fiber connector 5 be laterally moved to 2.- place, then plug 2.- in the locating flange at place; Control longitudinally-moving part 1 to drive place Green lens or fiber connector 5 lengthwise movement to 2.- place, then plug 2.- in the locating flange at place, complete 2.- connect;

3, control horizontal movable part 2 drive the Green lens 3. located or fiber connector 5 be laterally moved to 3.- place, then plug 3.- in the locating flange at place; Control longitudinally-moving part 1 to drive place Green lens or fiber connector 5 lengthwise movement to 3.- place, then plug 3.- in the locating flange at place, complete 3.- connect.

Claims (2)

1. the cross-coupled fibre distribution frame of crossbar system, comprises optical cross-connect matrix, it is characterized in that: described optical cross-connect matrix comprises

Multiple longitudinally-moving part of vertically moving and transversely movable horizontal movable part, longitudinally-moving part and horizontal movable part composition structure are the matrixing network arranged in length and breadth;

Multifiber jumping fiber, one end of each jumping fiber is connected with external-connected port, is stiff end; The other end of jumping fiber is connected with Green lens or fiber connector, is movable end;

Multiple keeper, each keeper is separately positioned in matrixing network;

Each Green lens or fiber connector are connected with longitudinally-moving part and horizontal movable part respectively, longitudinally-moving part, horizontal movable part are connected with electromechanical controlling device respectively, longitudinally-moving part and horizontal movable part drive Green lens or fiber connector to carry out vertical or horizontal motion, carry out being connected or plugging with keeper;

Described keeper is locating flange;

Described optical cross-connect matrix is N × N cross-connect matrix, and forming structure by N number of longitudinally-moving part of vertically moving and N number of transversely movable horizontal movable part is the matrixing network arranged in length and breadth;

Described jumping fiber is 2N root, and one end of 2N root jumping fiber is connected with 2N external-connected port, is stiff end; The other end of 2N root jumping fiber is connected with 2N Green lens or fiber connector, is movable end; Wherein N number of external-connected port connects longitudinally-moving part, and N number of external-connected port connects horizontal movable part.

2. a control method for the cross-coupled fibre distribution frame of crossbar system as claimed in claim 1, is characterized in that: electromechanical controlling device controls horizontal movable part and drives Green lens or fiber connector to be laterally moved to appointment place, then plugs in keeper; Controlling longitudinally-moving part drives Green lens or fiber connector lengthwise movement to this appointment place, then plugs in same keeper, just completes the Fiber connection of this appointment place.