CN104914536A - Sliding type intelligent optical fiber distribution box suitable for remote control - Google Patents

Abstract

The invention relates to a sliding type intelligent optical fiber distribution box suitable for remote control, which comprises a box body, and a user port optical fiber connecting base, an optical fiber positioning plate, optical fiber port positioning holes and a mechanical arm assembly which are arranged inside the box body, wherein the optical fiber port positioning holes are formed in the optical fiber positioning plate. The sliding type intelligent optical fiber distribution box is characterized by further comprising an optical fiber accommodating assembly and a mobile control unit, wherein the optical fiber accommodating assembly comprises an optical fiber disc pedestal, an optical fiber disc group and optical fiber connectors; the user port optical fiber connecting base, the optical fiber port positioning holes and the optical fiber disc group are arranged in a parallel manner; the optical fiber disc group is composed of a plurality of optical fiber discs, the optical fiber discs are arranged on the optical fiber disc pedestal in independent and sliding manner, and the optical fiber discs are automatic optical fiber collection discs with an automatic sliding function; and the mobile control unit receives external control information in a wireless or wired communication mode, and is used for controlling the clamping and movement of the mechanical arm assembly, so that the optical fiber connectors and the optical fiber accommodating assembly can be operated in collaborative linked manner, and the disconnection/connection of optical fibers inside the box and optical fibers outside the box can be completed by implementing one-time optical fiber jumping.

Description

A kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control

Technical field

The invention belongs to optical fiber distributing technical field, particularly relate to a kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control.

Along with the fast development of modern communication technology, optical communication network widespread use, optical fiber has covered each link of communication network, also proposes new higher requirement to the maintenance and management of optical communication equipment simultaneously.Existing communication equipment is when needs reconfigure or break down, generally just can complete resetting and fault detect communication facilities by the network management system of network management center, as the network management system, PCM facility network guard system, PBX network management system etc. of SDH optical transmission device; But for fibre distribution frame indispensable in optical communication network (Optical Distribution Frame is called for short ODF), also there is no inexpensive technical solution at present to realize Long-distance Control and management.Therefore, that designs high, the practical and market in urgent need of a kind of cost performance can webmaster optical fiber wiring equipment significant.

Domestic and international to the investigation and application of webmaster optical fiber wiring equipment being still in the starting stage at present, the solution of prior art mainly contains: one is optical switching technique, as micro-electromechanical system (MEMS) photoswitch, mechanical optical switch and alternate manner photoswitch, as " a kind of automatic optical distribution frame and calibration steps and system " thereof that Chinese patent application 201110069182.4 proposes, although adopting optical switching technique to construct can webmaster optical fiber wiring equipment be feasible technically, its complex process, cost are very high, two is the case inner fiber jumper connections adopting electromechanical control method to realize fibre distribution frame, as " the cross-coupled fibre distribution frame of a kind of crossbar system and control method thereof " that Chinese patent application 201310252412.X proposes, although the method obviously can reduce equipment cost compared with photoswitch scheme, also solve the problem that pencil tail optical fiber is wound around simultaneously, but the conducting due to its every single optical fibre at least takies a longitudinal cell, and the end points needing enough large space to move jumping fiber for electromechanical controlling device realizes jumper connection, therefore adopt the method to realize deficiency that automatic cross-coupled fibre distribution frame obviously exists the large and shock resistance difference of volume.And for example Chinese patent application 201310030260.9 discloses " a kind of mechanical type optical fiber wiring system based on CLOS cross matrix algorithm ", the optical fiber that distribution described in this system connects, lay respectively on two mutually orthogonal axis, two mutually orthogonal axis lay respectively at the upper and lower surface of a fibre faceplate, the two sides of fibre faceplate arranges the hole of matrix form distribution, and the optical fiber of fibre faceplate upper and lower surface is connected with the hole of orthogonal manner by matrix distribution., there is complex process significantly, equipment volume be large and high in cost of production is not enough, the demand of fibre distribution frame miniaturization cannot be met in this technical scheme connecting two optical fiber be positioned on mutually orthogonal axis in a matrix fashion.Be summed up, because existing employing electromechanical control method realizes the case inner fiber jumper connection scheme of fibre distribution frame, all also do not capture the core technology of dexterous optical fiber distributing well, so its practical value is also not high.

In sum, the deficiency how overcome existing for prior art has become one of current communications industry great difficult problem particularly urgently to be resolved hurrily in optical fiber distributing technical field.

Summary of the invention

The object of the invention is to provide a kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control for overcoming the deficiencies in the prior art, the present invention adopts to be had the fiber reel of automatic sliding function and mobile control unit and mechanical arm assembly and acts synergistically, make optical fiber all can realize orderly automatically stretching and contracting, greatly to improve the efficiency of Fiber connection and disconnection when connecting and disconnect and switching between two states.

According to a kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control that the present invention proposes, comprise arrange in casing and casing user port Fiber connection seat, optical fiber position-board, be arranged at fiber port pilot hole on optical fiber position-board and mechanical arm assembly, it is characterized in that: also comprise optical fiber accommodating component and mobile control unit; Described optical fiber accommodating component comprises fiber reel pedestal, fiber reel group and fiber connector; Described user port Fiber connection seat, fiber port pilot hole and fiber reel group are arranged in parallel; Described fiber reel group is made up of multiple fiber reel, and described fiber reel independent slide is arranged on described fiber reel pedestal, and be provided with the U-shaped optical fiber containing cavities of storage simple optical fiber in described fiber reel, one end that described simple optical fiber stretches out fiber reel is provided with fiber connector; Described mobile control unit accepts external control information by wireless or wire communication mode, for manipulating clamping and the movement of described mechanical arm assembly, make described fiber connector and optical fiber accommodating component work in coordination with interlock to operate, implement jumping fiber and namely complete break/connecing of case inner fiber and case infrared optical fiber.

A kind of principle that realizes being applicable to the sliding-type intelligent optical fiber distribution case of Long-distance Control that the present invention proposes is: the present invention is directed to the actual needs adopting electromechanical control method to realize the case inner fiber jumper connection scheme of fibre distribution frame, the sliding-type being designed to the fiber reel of optical fiber accommodating component dexterously have independent slide function receives fine dish automatically, effectively implements case inner fiber jumper connection scheme by mobile control unit, mechanical arm assembly and optical fiber accommodating component synergy simultaneously.The specific implementation of described fiber reel is: the U-shaped optical fiber containing cavities being provided with storage simple optical fiber in fiber reel, this U-shaped optical fiber containing cavities comprises fiber entrance, U-shaped cavity and fiber outlet, described fiber entrance and fiber outlet are positioned at the same side near described fiber port pilot hole, described simple optical fiber enters described U-shaped optical fiber containing cavities from fiber entrance, stretch out from described fiber outlet, can be connected with user port Fiber connection mouth; The bending radius of the bending section of this U-shaped optical fiber containing cavities is equal to or greater than 20mm, is preferably equal to or greater than 30mm, and the porch of described U-shaped optical fiber containing cavities preferably arranges sufficient camber line space.

The present invention compared with prior art its significant advantage is:

One is fiber reel in sliding-type intelligent optical fiber distribution case of the present invention is the automatic receipts fibre dish with independent slide function, bottom returns fine dish and fibre dish is received for dexterous synergistic combination structure in outer ring, make in distribution process, optical fiber all can not only can realize orderly automatically stretching and contracting when connecting and switching between storage two states, and excessively can not to be wound around because of optical fiber or bending and cause the loss of optical fiber information energy, greatly increase jumping optical fiber and connect and the efficiency of storage.

Two is optical fiber wiring systems that sliding-type intelligent optical fiber distribution case of the present invention is applicable to Long-distance Control completely, the automatic wiring operation in the fiber box in remote fiber distribution system can be realized, compared with the technology of existing photoswitch and so on, the present invention greatly reduces the manufacturing cost and use cost of equipment, therefore alternative existing product and applying widely.

Three is that sliding-type intelligent optical fiber distribution case of the present invention can complete an optical fiber disconnection by an optical fiber storage action, a Fiber connection can be completed by a Fiber connection action, easy to use, efficiency is high, alternative existing product and applying widely.

Four be sliding-type intelligent optical fiber distribution case of the present invention by wired or wireless mode to the operation implementing automatic optical fiber distribution in sliding-type intelligent optical fiber distribution case, make operating personnel can make response to the optical fiber distributing emergency situations in the intelligent optical fiber distribution case of far-end quickly, carry out repairing, replace and reconfiguring according to demand, and be not hampered by the inconvenience of weather or geographical environment, thus can greatly reduce and even avoid causing puzzlement or economic loss because of bursty state.

Accompanying drawing explanation

Fig. 1 is the structural representation of sliding-type intelligent optical fiber distribution case of the present invention.

Fig. 2 is the cross-sectional view of the fiber reel of sliding-type intelligent optical fiber distribution case of the present invention.

Fig. 3 is the structural representation of the mechanical arm assembly of sliding-type intelligent optical fiber distribution case of the present invention.

Fig. 4 is the structural representation of the mobile control unit of sliding-type intelligent optical fiber distribution case of the present invention.

Detailed description of main elements of the present invention: optical fiber position-board 1, fiber port pilot hole 2, fiber reel pedestal 3, fiber reel 4, simple optical fiber 5, U-shaped optical fiber containing cavities 6, fiber entrance 6-1, U-shaped cavity 6-2, fiber outlet 6-3, fiber connector 7, guiding draw-in groove 8, clamping projection 9, user port Fiber connection seat 10, mechanical arm 11, motion guide rail 12, mobile control unit 13, casing 14.

Embodiment

Below in conjunction with drawings and Examples, the specific embodiment of the present invention is described in further detail.

Composition graphs 1, a kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control that the present invention proposes, comprise arrange in casing and casing user port Fiber connection seat, optical fiber position-board, be arranged at fiber port pilot hole on optical fiber position-board and mechanical arm assembly, it is characterized in that: also comprise optical fiber accommodating component and mobile control unit; Described optical fiber accommodating component comprises fiber reel pedestal, fiber reel group and fiber connector; Described user port Fiber connection seat, fiber port pilot hole and fiber reel group are arranged in parallel; Described fiber reel group is made up of multiple fiber reel, and described fiber reel independent slide is arranged on described fiber reel pedestal, and be provided with the U-shaped optical fiber containing cavities of storage simple optical fiber in described fiber reel, one end that described simple optical fiber stretches out fiber reel is provided with fiber connector; Described mobile control unit accepts external control information by wireless or wire communication mode, for manipulating clamping and the movement of described mechanical arm assembly, make described fiber connector and optical fiber accommodating component work in coordination with interlock to operate, implement jumping fiber and namely complete break/connecing of case inner fiber and case infrared optical fiber.

Below in conjunction with Fig. 1, Fig. 2, Fig. 3 and Fig. 4, further illustrate a kind of preferred version and specific embodiment being applicable to the resilience type intelligent optical fiber distribution case of Long-distance Control that the present invention proposes.

Of the present inventionly carry a kind of preferred version being applicable to the resilience type intelligent optical fiber distribution case of Long-distance Control and be described as follows:

A jumping fiber of the present invention is an optical fiber opening operation or a fiber optic joining operation; After an optical fiber opening operation, described fiber connector is positioned in the described fiber port pilot hole of its correspondence; After a fiber optic joining operation, the described user port Fiber connection seat that described fiber connector is corresponding with it connects.

An optical fiber opening operation of the present invention refers to, the fiber connector of simple optical fiber disconnects because of the user port Fiber connection seat of mechanical arm effect from its correspondence, this simple optical fiber and fiber connector thereof move because of the corresponding fiber reel of manipulator clamping subsequently, and move along the direction deviating from described user port Connection Block, finally the fiber connector of this simple optical fiber is positioned in described fiber port pilot hole.

A described fiber optic joining operation refers to that the fiber connector of simple optical fiber disconnects because of the fiber port pilot hole of mechanical arm effect from its correspondence, this simple optical fiber and fiber connector thereof move because of manipulator clamping connector subsequently, and move along the direction towards described user port Connection Block, finally the fiber connector of this simple optical fiber is connected in described user port Fiber connection seat.

U-shaped optical fiber containing cavities of the present invention comprises fiber entrance, U-shaped cavity and fiber outlet, described fiber entrance and fiber outlet are positioned at the same side near described fiber port pilot hole, described simple optical fiber enters described U-shaped optical fiber containing cavities from fiber entrance, stretches out from described fiber outlet; The curvature of the bending section of described U-shaped optical fiber containing cavities is equal to or greater than 20mm, is preferably equal to or greater than 30mm, and the entrance of described U-shaped optical fiber containing cavities preferably arranges sufficient camber line space.

Multiple fiber reel of the present invention arranges clamping projection; Clamping projection on described user port Fiber connection seat, described fiber port pilot hole and described fiber reel is positioned at same plane.

User port Fiber connection seat of the present invention and described fiber port pilot hole are provided with the sensor detecting described fiber connector and the described connection status of user port Fiber connection seat and the connection status of described fiber connector and fiber port pilot hole.

Mechanical arm assembly of the present invention comprises mechanical arm, the driving governor of vertically setting and is arranged at described resilience type intelligent optical fiber distribution box top and the motion guide rail arranged along X and Y-direction, and this mechanical arm is along X, Y, and Z axis three directions are moved; Described mechanical arm assembly also comprises the manipulator clamping part clamping described fiber connector, and this manipulator clamping part is arranged at the Z-direction of described mechanical arm; Described robot movement assembly comprises mechanical arm described in one or more, preferably includes two mechanical arms.Described mechanical arm is provided with the displacement transducer of inspecting manipuator and fiber reel location status.

Also comprise an extra user port Fiber connection seat in casing of the present invention, this user port Fiber connection seat and described fiber port pilot hole arrange along Y direction; Described optical fiber accommodating component also comprises fiber connector guiding draw-in groove, and this guiding draw-in groove comprises plug groove and gathering sill; Described optical fiber position-board also comprises bundling optical fiber pilot hole, and described bundling optical fiber pilot hole is positioned at the below of described fiber port pilot hole.

Of the present inventionly a kind ofly be applicable to being described as follows of the resilience type intelligent optical fiber distribution case specific embodiment of Long-distance Control:

As shown in Figure 1, be provided with the user port plugboard that one piece of vertical direction is arranged in sliding-type intelligent optical fiber distribution case, this user port plugboard horizontally have user's fiber port Connection Block.User port Fiber connection seat respectively to outer and inwardly setting by user port plugboard, is outwards provided port to be connected with far-end optical transmission device, inwardly provides port to carry out optical fiber distributing with the optical fiber in sliding-type intelligent optical fiber distribution case and be connected; Also be provided with one piece of vertical direction in sliding-type intelligent optical fiber distribution case and optical fiber position-board is set, this optical fiber position-board is horizontally provided with fiber port pilot hole; Between optical fiber position-board with user port plugboard, parallel and fixed range is arranged, fiber orientation hole and above-mentioned Fiber connection seat one_to_one corresponding, the consistent and number consecutively in order of orientation; Optical fiber position-board also preferably arranges one or more bundling optical fiber hole, and bundling optical fiber enters in sliding-type intelligent optical fiber distribution case by this bundling optical fiber hole, preferred four concentrated light string holes on optical fiber position-board in an embodiment of the present invention; Optical fiber position-board also preferably arranges guiding draw-in groove, and this guide card slot is in the side of optical fiber position-board near user port plugboard, and this guiding draw-in groove comprises near the plug groove of optical fiber position-board and the gathering sill away from optical fiber position-board.Through verification experimental verification, guiding draw-in groove, in optical fiber distributing process, can play the effect preventing from being wound around and protecting fiber connector life cycle effectively.

As shown in Figure 2, fiber reel group is made up of the vertical parallel arranged of multiple fiber reel, and multiple fiber reel independent slide of fiber reel group are arranged on fiber reel pedestal; Be provided with the U-shaped optical fiber containing cavities of storage simple optical fiber in fiber reel, this U-shaped optical fiber containing cavities comprises fiber entrance, U-shaped cavity and fiber outlet, and this fiber entrance and fiber outlet are positioned at the same side near described fiber port pilot hole; The bending radius of the bending section of the U-shaped optical fiber containing cavities adopted in embodiments of the present invention is 20mm, is preferably equal to or greater than 30mm, and the entrance of U-shaped optical fiber containing cavities preferably arranges sufficient camber line space; Simple optical fiber enters described U-shaped optical fiber containing cavities from fiber entrance, and stretch out from described fiber outlet, the head that simple optical fiber stretches out fiber reel arranges fiber connector; In the present embodiment of the present invention, above-mentioned each fiber reel also arranges clamping projection, for manipulator clamping; In an embodiment of the present invention, the clamping projection that user port Fiber connection seat, fiber port pilot hole and above-mentioned fiber reel are arranged is positioned at same plane, the common working face forming mechanical arm.

In an embodiment of the present invention, user port Fiber connection seat and fiber port pilot hole arrange sensor, to detect the connection status of described fiber connector and described user port Fiber connection seat, and the connection status of described fiber connector and described fiber port pilot hole; Described sensor is photoelectric sensor.

As shown in Figure 3, in an embodiment of the present invention, mechanical arm assembly of the present invention comprises mechanical arm, motion guide rail and drived control part; The motion guide rail of mechanical arm assembly is arranged at the top of sliding-type intelligent optical fiber distribution case, comprises X-direction guide rail and Y-direction guide rail; X-direction guide rail is fixedly installed on the top of sliding-type intelligent optical fiber distribution case, and Y-direction guide rail is connected with X-direction slide; Namely mechanical arm is arranged along Z-direction is vertical direction in this embodiment, is dynamically connected with above-mentioned Y-direction track sliding; Mechanical arm is provided with clamping device and Z-axis direction displacement guide rail; This clamping device can be a jaw, has clamping and unclamps two states; Drived control part in mechanical arm assembly comprise control mechanical arm along the X direction, the three-axis stepping motor of Y-direction and Z-direction movement, control mechanical arm gripping apparatus grips and the motor unclamped, driving and limit switch.Two mechanical arms are preferably set in the mechanical arm assembly in the present invention, to realize the comprehensive covering user port Fiber connection seat in fiber box and fiber port pilot hole being carried out to optical fiber distributing.

Mobile control unit in far-end distributing cabinet comprises remote communication module and control module, accept the fiber wiring scheme that near-end parametric controller sends, and further according to fiber wiring scheme, manipulation manipulator clamping and moving fiber connector, carry out fiber optic joining operation and fiber optic joining operation.

The structure of mobile control unit of the present invention as shown in Figure 4, mobile control unit is realized by embedded system, and this embedded system comprises CPU, storer, remote communication module, instruction scheduling module, movable signal output module and connection status detection module.

Wherein: instruction scheduling module resolves fiber wiring scheme, obtains the operation steps that a control mechanical arm carries out optical fiber distributing operation, this operation steps comprises once or repeatedly fiber optic joining operation and once or repeatedly fiber optic joining operation; After an optical fiber opening operation, described fiber connector is positioned in the described fiber port pilot hole of its correspondence; After a fiber optic joining operation, the described user port Fiber connection seat that described fiber connector is corresponding with it connects.A described optical fiber opening operation refers to, the fiber connector of simple optical fiber disconnects because of the user port Fiber connection seat of mechanical arm effect from its correspondence, this simple optical fiber and fiber connector thereof move because of the corresponding fiber reel of manipulator clamping subsequently, and move along the direction deviating from described user port Connection Block, finally the fiber connector of this simple optical fiber is positioned in described fiber port pilot hole; A described fiber optic joining operation refers to that the fiber connector of simple optical fiber disconnects because of the fiber port pilot hole of mechanical arm effect from its correspondence, this simple optical fiber and fiber connector thereof move because of manipulator clamping connector subsequently, and move along the direction towards described user port Connection Block, finally the fiber connector of this simple optical fiber is connected in described user port Fiber connection seat.In the present invention, be arranged on fiber reel pedestal because fiber reel slides, when optical fiber and fiber connector move, fiber reel is followed optical fiber and is moved together with fiber connector, until fiber connector is connected to user port Fiber connection seat;

The movable signal output module of mobile control unit is connected with the drived control part in the present invention, as above-mentioned mechanical arm assembly Zhong Ge road motor; In an embodiment of the present invention, movable signal output module exports the operation that pulse-modulated signal controls motor; Connection status detection module is connected with casing Zhong Ge road sensor respectively.In an embodiment of the present invention, sensor can be set at user port Fiber connection seat place, for detecting the connection status between the user port Fiber connection seat of this ad-hoc location and fiber connector; Also sensor can be set on fiber port pilot hole, for detecting the connection status between the fiber port pilot hole of this ad-hoc location and fiber connector; The sensor adopted in a particular embodiment of the present invention is photoelectric sensor.Displacement transducer can also be set on described mechanical arm in the present invention, for location status between inspecting manipuator and fiber reel, judge that whether mechanical arm is enough near fiber reel, thus implement the operation of grip optical fiber dish further.

In the specific embodiment of the present invention, all explanations do not related to belong to the known technology of this area, can be implemented with reference to known technology.

The present invention, through validation trial, achieves satisfied trial effect.

Above embodiment and embodiment are a kind of concrete supports being applicable to the resilience type intelligent optical fiber distribution box technology thought of Long-distance Control proposed the present invention; protection scope of the present invention can not be limited with this; every technological thought proposed according to the present invention; any equivalent variations that the technical program basis is done or the change of equivalence, all still belong to the scope of technical solution of the present invention protection.

Claims (11)

1. one kind is applicable to the sliding-type intelligent optical fiber distribution case of Long-distance Control, comprise arrange in casing and casing user port Fiber connection seat, optical fiber position-board, be arranged at fiber port pilot hole on optical fiber position-board and mechanical arm assembly, it is characterized in that: also comprise optical fiber accommodating component and mobile control unit; Described optical fiber accommodating component comprises fiber reel pedestal, fiber reel group and fiber connector; Described user port Fiber connection seat, fiber port pilot hole and fiber reel group are arranged in parallel; Described fiber reel group is made up of multiple fiber reel, and described fiber reel independent slide is arranged on described fiber reel pedestal, and be provided with the U-shaped optical fiber containing cavities of storage simple optical fiber in described fiber reel, one end that described simple optical fiber stretches out fiber reel is provided with fiber connector; Described mobile control unit accepts external control information by wireless or wire communication mode, for manipulating clamping and the movement of described mechanical arm assembly, make described fiber connector and optical fiber accommodating component work in coordination with interlock to operate, implement jumping fiber and namely complete break/connecing of case inner fiber and case infrared optical fiber.

2. a kind of resilience type intelligent optical fiber distribution case being applicable to Long-distance Control according to claim 1, is characterized in that: a described jumping fiber is an optical fiber opening operation or a fiber optic joining operation; After an optical fiber opening operation, described fiber connector is positioned in the described fiber port pilot hole of its correspondence; After a fiber optic joining operation, the described user port Fiber connection seat that described fiber connector is corresponding with it connects.

3. a kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control according to claim 2, it is characterized in that: a described optical fiber opening operation refers to, the fiber connector of simple optical fiber disconnects because of the user port Fiber connection seat of mechanical arm effect from its correspondence, this simple optical fiber and fiber connector thereof move because of the corresponding fiber reel of manipulator clamping subsequently, and move along the direction deviating from described user port Connection Block, finally the fiber connector of this simple optical fiber is positioned in described fiber port pilot hole; A described fiber optic joining operation refers to that the fiber connector of simple optical fiber disconnects because of the fiber port pilot hole of mechanical arm effect from its correspondence, this simple optical fiber and fiber connector thereof move because of manipulator clamping connector subsequently, and move along the direction towards described user port Connection Block, finally the fiber connector of this simple optical fiber is connected in described user port Fiber connection seat.

4. a kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control according to claim 3, it is characterized in that: described U-shaped optical fiber containing cavities comprises fiber entrance, U-shaped cavity and fiber outlet, described fiber entrance and fiber outlet are positioned at the same side near described fiber port pilot hole, described simple optical fiber enters described U-shaped optical fiber containing cavities from fiber entrance, stretches out from described fiber outlet; The bending radius of the bending section of described U-shaped optical fiber containing cavities is equal to or greater than 20mm, is preferably equal to or greater than 30mm, and the fiber entrance of described U-shaped optical fiber containing cavities preferably arranges sufficient camber line space.

5. a kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control according to claim 4, is characterized in that: described multiple fiber reel arranges clamping projection; Clamping projection on described user port Fiber connection seat, described fiber port pilot hole and described fiber reel is positioned at same plane.

6. a kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control according to claim 5, is characterized in that: described user port Fiber connection seat and described fiber port pilot hole are provided with the sensor detecting described fiber connector and the described connection status of user port Fiber connection seat and the connection status of described fiber connector and fiber port pilot hole.

7. a kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control according to claim 6, is characterized in that: described mechanical arm is provided with the displacement transducer of inspecting manipuator and fiber reel location status.

8. a kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control according to claim 7, it is characterized in that: described mechanical arm assembly comprises mechanical arm, the driving governor of vertically setting and is arranged at described resilience type intelligent optical fiber distribution box top and the motion guide rail arranged along X and Y-direction, this mechanical arm is along X, Y, Z axis three directions are moved; Described mechanical arm assembly also comprises the manipulator clamping part clamping described fiber connector, and this manipulator clamping part is arranged at the Z-direction of described mechanical arm; Described robot movement assembly comprises mechanical arm described in one or more, preferably includes two mechanical arms.

9. a kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control according to claim 1, it is characterized in that: also comprise an extra user port Fiber connection seat in described casing, this user port Fiber connection seat and described fiber port pilot hole arrange along Y direction.

10. a kind of sliding-type intelligent optical fiber distribution case being applicable to Long-distance Control according to claim 1, it is characterized in that described optical fiber accommodating component also comprises fiber connector guiding draw-in groove, this guiding draw-in groove comprises plug groove and gathering sill.

11. a kind of sliding-type intelligent optical fiber distribution casees being applicable to Long-distance Control according to claim 1, it is characterized in that described optical fiber position-board also comprises bundling optical fiber pilot hole, described bundling optical fiber pilot hole is positioned at the below of described fiber port pilot hole.