CN113703113B

CN113703113B - Quick-assembly modularized optical fiber distribution frame and assembly method thereof

Info

Publication number: CN113703113B
Application number: CN202111054070.1A
Authority: CN
Inventors: 吴立刚
Original assignee: Hangzhou Henggu Technology Co ltd
Current assignee: Hangzhou Henggu Technology Co ltd
Priority date: 2021-09-09
Filing date: 2021-09-09
Publication date: 2023-05-02
Anticipated expiration: 2041-09-09
Also published as: CN113703113A

Abstract

The invention discloses a modularized optical fiber distribution frame capable of being assembled quickly and an assembly method thereof, and relates to the technical field of optical fiber distribution frames, wherein the modularized optical fiber distribution frame comprises a connecting column, a detection box, a locking piece, a tapping optical fiber box, a display screen, a detection lamp, an acquisition and transmission module, a label storage module, an overhaul calculation module, a search and circulation retrieval module and a registration login module; the invention realizes the positioning, detection and maintenance of the single-fiber distribution frame or the multi-fiber distribution frame on the basis of realizing the modularized disassembly and assembly of the tapping optical fiber box, thereby ensuring that the tapping optical fiber box is simple and convenient to operate and assemble by a worker, the maintenance of the tapping optical fiber distribution frame is more rapid, the tapping ports of the tapping optical fiber box are intelligently selected under the condition that a user is not out of home, and the installation experience of the user is better.

Description

Quick-assembly modularized optical fiber distribution frame and assembly method thereof

Technical Field

The invention relates to the technical field of optical fiber distribution frames, in particular to a modular optical fiber distribution frame capable of being assembled quickly and an assembly method thereof.

Background

The optical fiber distribution frame is a wiring connection device between an optical cable and optical communication equipment, a base station needs to be built in the conveying process of the optical cable, and the optical cable needs to be conveyed by being applied to the optical fiber distribution frame in a station of the base station;

the multifunctional optical fiber distribution frame with the publication number of CN210323492U is characterized in that a movable dust removal box is directly arranged on the optical fiber distribution frame, a dust removal nozzle is arranged on the dust removal box, the optical port on the optical fiber disk can be thoroughly removed, the dust removal effect is improved, but the multifunctional optical fiber distribution frame has the defects that the optical fiber disk cannot be disassembled due to the fact that the optical fiber disk is directly arranged on an optical fiber distribution frame body, when a terminal is not needed to be inserted, the resource waste is caused, meanwhile, the optical port of the optical fiber disk is arranged on the optical fiber disk in parallel, the utilization rate of the optical fiber disk is low, and therefore the problems that the optical fiber disk cannot be assembled in a modularized disassembling mode, the utilization rate of the optical port of the optical fiber disk is low, and the utilization rate of the optical fiber distribution frame is low are caused;

however, when the problems are solved, whether the fiber disk is installed and fastened or not cannot be intuitively detected after the fiber disk is modularized, and when a plurality of fiber distribution frames cannot effectively position and count the fiber disk, intelligent detection reminding cannot be performed on the fiber disk in a unified manner, such as signal open circuit detection, clamping conditions of the fiber disk and temperature and humidity conditions in the fiber distribution frames;

in view of the above technical drawbacks, a solution is now proposed.

Disclosure of Invention

The invention aims at: the device comprises a connecting column, a detection box, a locking piece, a tapping optical fiber box, a display screen, a detection lamp, an acquisition and transmission module, a label storage module, a maintenance calculation module, a search and circulation retrieval module and a registration and login module; on the basis of realizing modularized disassembly and assembly of the tapping optical fiber box, positioning, detection and maintenance of a single optical fiber distribution frame or a multi-optical fiber distribution frame are realized, so that a worker operates and assembles the tapping optical fiber box simply and conveniently, overhauls and maintains the optical fiber distribution frame more quickly, and under the condition that a user is not out of home, the tapping ports of the worker are intelligently selected, so that the installation experience of the user is better, and the problem that the traditional optical fiber distribution frame cannot be assembled in a modularized manner and cannot be positioned, detected and maintained intelligently is solved.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a quick assembly's modularization optic fibre distribution frame, includes casing, sealing door, control panel, display screen, start button, running light, top cap, glass window, pulling handle, outgoing line sealing port and pressure sensor, the casing internal fixation is equipped with spliced fiber box, detection box and locking piece, and the casing internal motion is equipped with the spliced fiber box, the spliced pole is located on the axis of casing, and the spliced pole installs total connection port, total connection port equidistance is equipped with a plurality of, and total connection port locates on the axis of spliced pole, the detection box is equipped with two, the detection box symmetry locates the both sides of spliced pole, and the detection box just faces the glass window setting, install the detection light on the detection box, the locking piece symmetry sets up two, and two locking pieces constitute a set of, the locking piece equidistance is equipped with the multiunit, a set of locking piece corresponds a detection light and a corresponding total connection port respectively, tap fiber box one side is the cambered surface, tap box opposite one side is equipped with the first slot of adaptation spliced pole, and tap box opposite cambered surface's first slot that is equipped with the adaptation spliced pole, the splice tab is located in the splicing box, the both sides of tap box, the locking piece is located in the splicing terminal, the both sides of locking slot, and the locking piece is located to the both sides of the splicing box, the locking piece, and the locking piece is located the both sides of the splicing box, and the locking tab is located the both sides of the splicing box, and the locking piece, the locking tab is fixed to the splicing piece, and the locking piece, and the tap has the tap pin and the locking piece;

the control panel includes:

the acquisition and transmission module is used for acquiring the component working condition information and the optical fiber connection condition information of the optical fiber distribution frame and respectively transmitting the component working condition information and the optical fiber connection condition information to the label storage module and the overall detection module;

the label storage module is used for carrying out integrated calibration on the position information of the optical fiber distribution frame, receiving the optical fiber connection status information, generating overall label information and storing the overall label information; the method is also used for acquiring the condition of optical fiber signal disconnection;

the overhaul calculation module is used for receiving the component working condition information in the optical fiber distribution frame, calculating the component working condition information and generating a maintenance control signal, acquiring overall label information and generating a maintenance text, and sending the maintenance control signal and the maintenance text to the worker service terminal.

Further, the locking piece includes locking frame, block strip, slide bar, nut and locking shell fragment, the locking frame is fixed to be located on the lateral wall of casing, the locking shell fragment is located on the diapire of locking frame, block strip bottom and the top butt of locking shell fragment, the slide bar passes through welded fastening and locates the bottom of block strip, the slide bar slides and runs through behind the diapire of locking shell fragment and locking frame and set up the external screw thread section, the nut screw thread cup joints in the external screw thread section department of slide bar, the block strip inlays in locking convex bottom, pressure sensor installs in the bottom of locking shell fragment.

Further, a first guiding part is arranged on one side of the locking spring plate opposite to the locking spring plate of the clamping strip, and the section of the first guiding part is arc-shaped.

Further, a second guiding part is arranged at the bottom corner of one side of the locking bulge opposite to the tapping optical fiber box, and the section of the second guiding part is arc-shaped.

Further, a locking groove embedded by the adaptive clamping strip is formed in the bottom of the locking protrusion.

Further, the detection lamp and the pressure sensor are electrically connected with the control panel.

Further, the control panel further includes:

the searching and tracking searching module acquires a searching instruction, invokes overall label information of the label storage module, generates a searching report text, and sends the searching report text to the registration login module;

the registration login module is used for submitting registration information through the mobile phone terminal by a user for registration, sending the registration information which is successfully registered to the tag storage module, and also used for operating the mobile phone terminal by the user to send a search instruction for requesting to install the optical fiber and sending the search instruction to the search module; the registration information comprises the name, the mobile phone number, the identity card number and the registration position of the user; the server marks the user who is registered successfully as the registered user, and marks the time when the registration information is received as the registration time of the registered user.

The assembling method of the modularized optical fiber distribution frame capable of being assembled quickly comprises the following specific assembling steps:

step one: welding a connecting column in a shell far away from the central axis of a sealing door, then installing detection lamps on the detection boxes, symmetrically installing two detection boxes on two sides of the connecting column and fixing the two detection boxes with the shell, symmetrically installing two locking pieces on two sides of the connecting column and at a total connection port simultaneously, forming a group by the two locking pieces, and equidistantly installing a plurality of groups of locking pieces for locking protrusion insertion, so that tapping optical fiber boxes are installed, wherein one group of locking pieces corresponds to one total connection port and one detection lamp respectively, and therefore the number of the detection lamps is consistent with that of the total connection ports;

step two: symmetrically welding at least two sliding bars at the bottom of a locking bar in a spot welding mode, fixedly mounting an induction part of a pressure sensor at the bottom of a locking frame, attaching an adhesive to the bottom surface of the locking spring, placing the locking spring into the locking frame in a right-side-up mode, after the locking spring completely enters the locking frame, pressing the locking spring downwards to enable the adhesive to be in full contact with the bottom wall of the locking frame, fixedly bonding the locking spring on the bottom wall of the locking frame, penetrating the sliding bars through the locking spring and the bottom wall of the locking frame, continuously screwing a nut, enabling the bottom end of the locking bar to be in butt joint with the locking spring, enabling the locking spring to slightly shrink, stopping rotating the nut, and accordingly installing the locking bar in the locking frame, and then welding or bolting the locking frame and the side wall of a shell, so that the assembly work of the locking piece is completed;

step three: the locking protrusion is aligned with the opening of the locking frame and is extruded into the locking frame to be fixedly connected with the tapping optical fiber box, meanwhile, two sides of the blocking piece are in abutting sliding connection with the side wall of the shell, when the second guiding part of the locking protrusion abuts against and is in relative extrusion movement with the first guiding part, the first guiding part and the second guiding part are in contact with each other in arc shapes, so that the locking protrusion is labor-saving and enters into the cavity of the locking frame, at the moment, the first guiding part downwards extrudes the locking elastic piece, so that the locking elastic piece is highly contracted and extrudes the pressure sensor, meanwhile, the sliding rod is enabled to come out of the locking frame, when the locking protrusion completely enters into the locking frame, the blocking strip is embedded into the locking groove under the reverse acting force of the locking elastic piece and is in abutting connection with the locking protrusion, two fixed points are formed, the two blocking pieces abut against the locking frame to form two-point abutting points, the locking piece is embedded into the second groove of the tapping optical fiber box and the connecting column is embedded into the first groove of the tapping optical fiber box, so that a cross-shaped abutting point is formed, and when the locking protrusion is required to be detached from the locking frame, the optical fiber box is required to be detached from the locking frame, and the optical fiber box is enabled to be in a state when the locking protrusion is required to be detached from the locking frame.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

the invention is characterized in that a connecting column, a detection box, a locking piece, a tapping optical fiber box, a display screen, a detection lamp, a collection and transmission module, a label storage module, a maintenance calculation module, a search and circulation retrieval module and a registration and login module are arranged; on the basis of realizing modularized disassembly and assembly of the tapping optical fiber box, the positioning, detection and maintenance of a single optical fiber distribution frame or a multi-optical fiber distribution frame are realized, so that the tapping optical fiber box is simple and convenient to operate and assemble by a worker, the tapping port of the tapping optical fiber box is intelligently selected under the condition that a user is not at home, the installation experience of the user is better, the problem that the traditional optical fiber distribution frame cannot be assembled in a modularized manner is solved,

and the problem that the optical fiber distribution frame cannot be positioned, detected and maintained intelligently.

Drawings

Fig. 1 shows a front view of an optical distribution frame provided in accordance with the present invention;

fig. 2 shows a schematic diagram of an internal structure of an optical distribution frame according to the present invention;

FIG. 3 shows a cross-sectional view at A-A of FIG. 2;

FIG. 4 illustrates another front view of a drop fiber optic box provided in accordance with the present invention;

FIG. 5 illustrates a cross-sectional view of a latch according to the present invention in a splice with a drop fiber optic cassette;

fig. 6 shows a perspective view of a drop fiber optic cassette of a fiber optic distribution frame provided in accordance with the present invention;

fig. 7 shows a flow chart of the operation of the optical distribution frame provided in accordance with the present invention;

legend description: 1. a housing; 2. a connecting column; 3. a detection box; 4. a locking member; 5. tapping the optical fiber box; 6. a wire outlet sealing port; 101. sealing the door; 102. a control panel; 103. a display screen; 104. a start button; 105. running a lamp; 106. a top cover; 107. a glass window; 108. pulling the handle; 109. a pressure sensor; 201. a main port; 301. a detection lamp; 401. a locking frame; 402. a clamping strip; 403. a slide bar; 404. a nut; 405. a locking spring plate; 406. a first guide part; 501. a total connection terminal; 502. a tap port; 503. a locking projection; 504. a baffle; 505. a second guide part; 506. locking groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1:

the utility model provides a modular optical fiber distribution frame of quick assembly, including casing 1, sealing door 101, control panel 102, display screen 103, start button 104, running lamp 105, top cap 106, glass window 107, pulling handle 108, outlet seal port 6 and pressure sensor 109, sealing door 101's one end is articulated with casing 1, its other end and casing 1 joint, sealing door 101 locates the upper portion of control panel 102, pulling handle 108 is fixed to be located sealing door 101 and is close to the central part of one side with casing 1 joint department, sealing door 101 and outlet seal port 6 have guaranteed the leakproofness in the casing, prevent the interference of outside air, control panel 102 installs on sealing door 101, start button 104, running lamp 105 and display screen 103 all install on control panel 102, display screen 103, start button 104 and running lamp 105 set gradually from the top down, start button 104 is the switch that controls the optical fiber distribution frame, when optical fiber distribution frame operates, running lamp 105 and display screen 103 all show optical fiber distribution frame internal information, 106 are fixed to be located at the top of casing 1, top cap 106 has certain rainwater water conservancy diversion effect, top cap 106 has the window 107 of glass window and can directly see from the detection window 301 of glass window 101 and direct detection condition from top cap 101;

the inside of the shell 1 is fixedly provided with a connecting column 2, detection boxes 3 and locking pieces 4, tapping optical fiber boxes 5 are movably arranged in the shell 1, the connecting column 2 is arranged on the central axis of the shell 1, the connecting column 2 is provided with a plurality of total connecting ports 201, the total connecting ports 201 are equidistantly arranged on the central axis of the connecting column 2, the total connecting ports 201 are arranged on the central axis of the connecting column 2, the detection boxes 3 are provided with two, the detection boxes 3 are symmetrically arranged on two sides of the connecting column 2, the detection boxes 3 are opposite to the glass window 107, the detection boxes 3 are provided with detection lamps 301, the detection lamps 301 are respectively electrically connected with the control panel 102 and the pressure sensor 109, the locking pieces 4 are symmetrically arranged in two, the two locking pieces 4 form a group, the locking pieces 4 are equidistantly provided with a plurality of groups, one group of locking pieces 4 respectively correspond to one detection lamp 301 and one total connecting port 201, the tapping optical fiber box 5 is provided with a cambered surface, a first channel which is matched with the connecting column 2 is arranged on one side of the cambered surface of the tapping optical fiber box 5, the connecting column 2 is embedded in the first channel of the tapping optical fiber box 5, the tapping optical fiber box 5 is provided with a second channel which is matched with the locking piece 4, the locking piece 4 is embedded in the second channel of the tapping optical fiber box 5, the tapping optical fiber box 5 is provided with a total connection terminal 501, a tapping port 502, a locking bulge 503 and a blocking piece 504, the total connection terminal 501 is clamped with the total connection port 201, the locking bulge 503 is fixedly arranged on one side of the cambered surface of the tapping optical fiber box 5, the locking bulge 503 is symmetrically arranged on two sides of the first channel of the tapping optical fiber box 5, the locking bulge 503 is clamped with the locking piece 4, the blocking piece 504 is fixedly arranged on two sides of the tapping optical fiber box 5, and the blocking piece 504 is abutted with the locking piece 4;

the locking piece 4 comprises a locking frame 401, a clamping strip 402, a sliding rod 403, a nut 404 and a locking spring piece 405, wherein the locking frame 401 is fixedly arranged on the side wall of the shell 1, the locking spring piece 405 is arranged on the bottom wall of the locking frame 401, the bottom of the clamping strip 402 is in butt joint with the top of the locking spring piece 405, the sliding rod 403 is fixedly arranged at the bottom of the clamping strip 402 through welding, the sliding rod 403 penetrates through the locking spring piece 405 and the bottom wall of the locking frame 401 in a sliding mode and is provided with an external thread section, the nut 404 is in threaded connection with the external thread section of the sliding rod 403, the clamping strip 402 is embedded at the bottom of the locking protrusion 503, and the pressure sensor 109 is arranged at the bottom end of the locking spring piece 405;

the locking strip 402 is equipped with first guiding portion 406 in opposite directions one side of locking shell fragment 405, and first guiding portion 406 cross section is the arc, and the bottom corner of the side of locking protrusion 503 opposite directions tapping optical fiber box 5 is equipped with second guiding portion 505, and the cross section of second guiding portion 505 is the arc, and the locking recess 506 of adaptation block strip 402 embedding is seted up to the bottom of locking protrusion 503, and detection lamp 301 and pressure sensor 109 all with control panel 102 electric connection, curved first guiding portion 406 and second guiding portion 505 make the joint assemble more laborsaving.

Example 2:

according to embodiment 1, a method for assembling a modular optical fiber distribution frame is provided, wherein the method comprises the following specific assembly steps:

step one: welding the connecting column 2 in the shell 1 far away from the central axis of the sealing door 101, then installing the detection lamps 301 on the detection boxes 3, symmetrically installing the two detection boxes 3 on two sides of the connecting column 2 and fixing the two detection boxes with the shell 1, then symmetrically installing the two locking pieces 4 on two sides of the connecting column 2 and at the position of the total connection port 201, then forming a group by the two locking pieces 4, and installing a plurality of groups of locking pieces 4 at equal intervals for inserting the locking projections 503, thereby installing the tapping optical fiber boxes 5, wherein the group of locking pieces 4 respectively correspond to the total connection port 201 and the detection lamps 301, and therefore the number of the detection lamps 301 is consistent with that of the total connection port 201;

step two: at least two slide bars 403 are symmetrically welded to the bottom of the locking bar 402 in a spot welding mode, then the sensing part of the pressure sensor 109 is fixedly arranged at the bottom of the locking frame 401, meanwhile, the bottom surface of the locking spring 405 is attached to the adhesive glue, then the locking spring 405 is placed in the locking frame 401 in a right-side-up mode, after the locking spring 405 completely enters the locking frame 401, the locking spring 405 is pressed downwards, the adhesive glue is fully contacted with the bottom wall of the locking frame 401, so that the locking spring 405 is fixedly adhered to the bottom wall of the locking frame 401, the slide bars 403 penetrate through the locking spring 405 and the bottom wall of the locking frame 401, then the nuts 404 are continuously screwed, the bottom end of the locking bar 402 is abutted with the locking spring 405, the locking spring 405 is slightly contracted, then the nuts 404 are stopped rotating, so that the locking bar 402 is arranged in the locking frame 401, and then the locking frame 401 is welded or bolted with the side wall of the shell 1, and thus the assembly work of the locking piece 4 is completed;

step three: the locking protrusion 503 is aligned with the opening of the locking frame 401 and extrudes the tapping optical fiber box 5 fixedly connected with the locking protrusion 503 into the locking frame, meanwhile, two sides of the retaining sheet 504 are in abutting sliding connection with the side wall of the shell 1, when the second guiding part 505 of the locking protrusion 503 abuts against and is in abutting motion with the first guiding part 406, as the first guiding part 406 and the second guiding part 505 are in arc contact, the first guiding part 406 and the second guiding part 505 enable the locking protrusion 503 to enter into the cavity of the locking frame 401 in a labor-saving manner, at the moment, the first guiding part 406 extrudes the locking elastic sheet 405 downwards, so that the locking elastic sheet 405 is contracted in a height and extrudes the pressure sensor 109, and simultaneously, the sliding rod 403 is out of the locking frame 401, and when the locking protrusion 503 completely enters into the locking frame 401, the locking bar 402 is embedded into the locking groove 506 under the reverse acting force of the locking elastic sheet 405, so as to form two fixed points, and the two retaining sheets 504 abut against the locking frame 401 to form two point abutting points, and the locking piece 4 is embedded into the second optical fiber box 5 in the second optical fiber box 2, so that the locking bar 5 is in the locking protrusion 5, and the locking bar 5 is detached from the optical fiber box 5, and the tapping optical fiber box 5 is assembled in a plurality of the condition, and the tapping optical fiber box is assembled in a plurality of the condition, and the situation that the tapping optical fiber box is more firmly is required to be assembled.

Example 3:

according to embodiments 1 and 2, a method for using a modular optical fiber distribution frame with rapid assembly is provided, which comprises the following specific steps:

after the tapping optical fiber box 5 is assembled, the locking protrusion 503 is embedded into the locking frame 401, at this time, the locking protrusion 503 makes the locking elastic sheet 405 highly shrink, pressure is generated on the pressure sensor 109 after the locking elastic sheet 405 highly shrinks, the pressure sensor 109 can convert a pressure signal into an output electric signal according to the extrusion force and transmit the output electric signal to the control panel 102, the control panel 102 immediately controls the detection lamp 301 corresponding to the locking piece 4 to be lightened after receiving the electric signal, for example, eight groups of the locking piece 4 are arranged, and serial numbers 1, 2 and 3 … … are calibrated in sequence from top to bottom, then the detection lamp 301 is arranged on the detection box 3, then the detection lamp 301 sequentially corresponds to the locking piece 4 from left to right, when the tapping optical fiber box 5 is inserted into the locking piece 4 with serial number 1, the corresponding leftmost detection lamp 301 is lightened, the sealing door 101 is closed after the detection lamp 301 is lightened to indicate that the installation of the tapping optical fiber box 5 is completed, then the sealing door 101 is closed, and the condition of the detection lamp 301 is observed through the glass window 107 of the sealing door 101, so that the installation condition of the tapping optical fiber box 5 is judged;

when the tapping optical fiber box 5 is assembled, tapping terminals need to be connected at the tapping ports 502 of the tapping optical fiber box 5, so that a broadband network is distributed to each household through optical fibers, then when the tapping terminals are clamped with the tapping ports 502 and the network is transmitted to each household, the optical fiber connection status of the tapping terminals is displayed at the display screen 103 of the control panel 102, wherein the optical fiber connection status comprises the connection value of the optical fiber terminals, the use value of the optical fibers, the unused value of the optical fibers and the disconnection connection value of the optical fibers, and the disconnection connection value of the optical fibers displays the specific calibration serial numbers of the locking pieces 4 and the serial numbers of the tapping ports 502 of the tapping optical fiber box 5, for example, the tapping ports 502 are provided with n numbers which are sequentially arranged to be 1, 2 and 3 … … n, such as the connection disconnection fault of the optical fibers, the display screen 103 also displays a' 3 rd locking piece 4, the disconnection of the nth tapping ports 502, a timely overhaul text, positioning and overhaul, so that users or workers can maintain the internal conditions of the optical fiber distribution frame through the display text of the display screen 103.

Example 4:

a modular fiber distribution frame for quick assembly, provided with a plurality of control panels 102 comprising:

the maintenance calculation module is used for receiving the component working condition information in the optical fiber distribution frame, calculating the component working condition information and generating a maintenance control signal, acquiring overall label information and generating a maintenance text, and sending the maintenance control signal and the maintenance text to the worker service terminal;

Example 5:

according to

embodiments

1, 3 and 4, a method for real-time monitoring of a modular optical distribution frame for rapid assembly is proposed,

sa: the acquisition and transmission module acquires working condition information of the optical fiber distribution frame and transmits the working condition information to the overhaul calculation module, and the acquisition and transmission module also acquires optical fiber connection condition information and transmits the optical fiber connection condition information to the tag storage module; the working condition information of the optical fiber distribution frame comprises a pressure value R acquired by a pressure sensor 109, a temperature value Y acquired by a first temperature and humidity sensor in a shell 1, a humidity value K acquired by the first temperature and humidity sensor in the shell 1, a temperature value Y acquired by a second temperature and humidity sensor outside the shell 1 and a humidity value K acquired by the second temperature and humidity sensor outside the shell 1, and the optical fiber connection condition information comprises the use information of a tapping port 502 and the position information of the tapping port 502;

sb: the label storage module marks the plurality of optical fiber distribution frames as M, wherein the marking

serial numbers

1, 2 and 3 … … M of the optical fiber distribution frames are positive integers, and when the plurality of locking pieces 4 are arranged in the optical fiber distribution frames, the optical fiber distribution frames are marked as L, wherein L is 1, 2 and 3 … … L, and L is a positive integer;

receiving the optical fiber connection status information, processing the information in the optical fiber connection status information, acquiring the use information of the tapping ports 502 and the position information of the tapping ports 502, and calibrating the tapping ports 502, wherein the tapping ports 502 are provided with n, which are sequentially arranged as 1, 2 and 3 … … n, and n is a positive integer; forming overall label information by combining the position information of the optical fiber distribution frame and storing the overall label information; the overall label information is specifically expressed as "the position information of the M-th optical fiber distribution frame, the L-th row tapping optical fiber box 5, the n-th tapping port 502, and the attached optical fiber distribution frame";

when the optical fiber signal is obtained to be broken, the label storage module generates signal broken text information and sends the signal broken text information to the worker service terminal, and workers overhaul the worker service terminal after seeing the broken text information through the worker service terminal, wherein the broken text information is specifically 'the Mth optical fiber distribution frame, the L-th line-tapped optical fiber box 5 and the nth tap port 502, the signal interruption occurs, and the worker service terminal is required to overhaul in time, and the worker service terminal is attached with position information of the optical fiber distribution frame'; the maintenance of the optical fiber distribution frame by staff is simpler and faster through the open circuit text information;

sc: the overhaul calculation module receives the pressure value R acquired by the pressure sensor 109, the temperature value Y in the first temperature and humidity sensor acquisition shell 1, the humidity value K in the first temperature and humidity sensor acquisition shell 1, the temperature value Y outside the second temperature and humidity sensor acquisition shell 1 and the humidity value K outside the second temperature and humidity sensor acquisition shell 1, and according to the formula

Obtaining a maintenance control variable value A, wherein e1, e2, e3 and e4 are weight correction coefficients, e1 is larger than e2 and e4 is larger than e3, and e1+e2+e3+e4=7.31;

comparing A with a preset threshold value a, and generating a maintenance control signal when A is larger than a, otherwise, not generating the maintenance control signal;

when a maintenance control signal is generated, the overhaul calculation module immediately invokes overall label information corresponding to the maintenance control signal and generates a maintenance text, and the maintenance text is sent to the worker service terminal;

after the worker service terminal receives the maintenance text, the worker service terminal edits the maintenance text characters of the maintenance text to the M-th optical fiber distribution frame, and attaches the position information of the optical fiber distribution frame;

after the staff sees the maintenance text, the staff reaches the optical fiber distribution frame to fasten the parts therein and dispel the heat and moisture in the shell 1, so that the service life of the optical fiber distribution frame is prolonged, and the use experience of users is improved.

Example 6:

according to embodiments 4 and 5, there is further provided a method for retrieving a modular optical fiber distribution frame assembled quickly, comprising the following steps:

when a user wants to install the optical fiber, the user operates the mobile phone terminal to send a search instruction for requesting to install the optical fiber to the search and circulation search module; the retrieval instruction comprises an installation address, a user name and an identity card number;

the searching and tracking module receives a searching instruction, takes the position information of the installation optical fiber as the area radius, and invokes the overall label information of the label storage module, so as to generate a searching report text;

the retrieval report text is the position of the optical distribution frame, the distance between the nearby optical distribution frame and the installation address and the service condition inside the optical distribution frame, and the optical distribution frame after full use is filtered at the moment;

the use condition inside the optical fiber distribution frame is the residual condition of the locking piece 4 or the tapping port 502, the residual condition of the locking piece 4 is the condition that the tapping optical fiber box 5 is not installed, and the residual condition of the tapping port 502 is the condition that the tapping terminal is not connected;

and sending the search report text to the registration login module, and determining the optical fiber distribution frame for installing the optical fibers by a user through the search report text, so that the optical fiber distribution frame is connected with a network, and the optical fibers can be ordered and installed only by operating a mobile phone terminal by a client, so that the optical fiber distribution frame is more intelligent.

By combining the embodiment 1 to the embodiment 6, the invention comprises a connecting column 2, a detection box 3, a locking piece 4, a tapping optical fiber box 5, a display screen 103, a detection lamp 301, an acquisition and transmission module, a label storage module, an overhaul calculation module, a search and circulation retrieval module and a registration login module; on the basis of realizing modularized disassembly and assembly of the tapping optical fiber box 5, positioning, detection and maintenance of a single optical fiber distribution frame or a multi-optical fiber distribution frame are realized, so that a worker can operate and assemble the tapping optical fiber box 5 conveniently and simply, overhaul and maintain the optical fiber distribution frame more quickly, and under the condition that a user is not out of home, the tapping port 502 is intelligently selected, so that the user's installation experience is better, and the problem that the traditional optical fiber distribution frame cannot be assembled in a modularized manner and cannot be positioned, detected and maintained intelligently is solved.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims

1. The modularized optical fiber distribution frame capable of being assembled quickly comprises a shell (1), a sealing door (101), a control panel (102), a display screen (103), a starting button (104), running lamps (105), a top cover (106), a glass window (107), a pulling handle (108), outgoing line sealing ports (6) and a pressure sensor (109), and is characterized in that a connecting column (2), a detecting box (3) and locking pieces (4) are fixedly arranged in the shell (1), tapping optical fiber boxes (5) are movably arranged in the shell (1), the connecting column (2) is arranged on the central axis of the shell (1), the connecting column (2) is provided with a total connecting port (201), the total connecting ports (201) are equidistantly provided with a plurality of running lamps, the total connecting ports (201) are arranged on the central axis of the connecting column (2), the detecting boxes (3) are arranged at two sides of the connecting column (2) symmetrically, the detecting boxes (3) are arranged opposite to the glass window (107), the detecting lamps (301) are arranged on the detecting boxes (3), the locking pieces (4) symmetrically are arranged, the locking pieces (4) and the locking pieces (4) are arranged at equal intervals, the group of locking pieces (4) respectively correspond to one detection lamp (301) and one total connection port (201), one side of the tapping optical fiber box (5) is an arc surface, one side of the tapping optical fiber box (5) opposite to the arc surface is provided with a first channel matched with the connecting column (2), the connecting column (2) is embedded in the first channel of the tapping optical fiber box (5), the tapping optical fiber box (5) is provided with a second channel matched with the locking piece (4), the locking piece (4) is embedded in the second channel of the tapping optical fiber box (5), the tapping optical fiber box (5) is provided with a total connection terminal (501), a tapping port (502), a locking bulge (503) and a blocking piece (504), the total connection terminal (501) is clamped with the total connection port (201), the locking bulge (503) is fixedly arranged on one side of the opposite to the arc surface of the tapping optical fiber box (5), the locking bulge (503) is symmetrically arranged on two sides of the first channel of the tapping optical fiber box (5), and the locking bulge (503) is abutted against the locking piece (4) and the locking piece (4) is fixedly connected with the locking piece (4);

the control panel (102) comprises:

the locking piece (4) comprises a locking frame (401), a clamping strip (402), a sliding rod (403), a nut (404) and a locking spring piece (405), wherein the locking frame (401) is fixedly arranged on the side wall of the shell (1), the locking spring piece (405) is arranged on the bottom wall of the locking frame (401), the bottom of the clamping strip (402) is abutted with the top of the locking spring piece (405), the sliding rod (403) is fixedly arranged at the bottom of the clamping strip (402) through welding, the sliding rod (403) penetrates through the locking spring piece (405) and the bottom wall of the locking frame (401) in a sliding mode and is provided with an external thread section, the nut (404) is in threaded connection with the external thread section of the sliding rod (403), the clamping strip (402) is embedded at the bottom of the locking bulge (503), and the pressure sensor (109) is arranged at the bottom of the locking spring piece (405).

A first guide part (406) is arranged on one side of the locking spring piece (405) opposite to the clamping strip (402), and the section of the first guide part (406) is arc-shaped;

a second guide part (505) is arranged at the bottom corner of one side of the locking bulge (503) opposite to the tapping optical fiber box (5), and the section of the second guide part (505) is arc-shaped;

the bottom of the locking bulge (503) is provided with a locking groove (506) embedded by the adaptive clamping strip (402).

2. A modular optical distribution frame according to claim 1, characterized in that the detection lamp (301) and the pressure sensor (109) are electrically connected to the control panel (102).

3. The quick-assembly modular fiber distribution frame of claim 2, wherein the control panel (102) further comprises:

4. A method of assembling a modular optical distribution frame for quick assembly according to any of claims 1-3, characterized by the specific assembly steps of:

step one: welding a connecting column (2) in a shell (1) far away from the central axis of a sealing door (101), then installing detection lamps (301) on detection boxes (3), symmetrically installing two detection boxes (3) on two sides of the connecting column (2) and fixing the two detection boxes with the shell (1), symmetrically installing two locking pieces (4) on two sides of the connecting column (2) and at the position of a total connection port (201), and then forming a group by the two locking pieces (4), wherein the locking pieces (4) are equidistantly provided with a plurality of groups for locking projections (503) to be inserted, so that a tapping optical fiber box (5) is installed, and the group of locking pieces (4) respectively correspond to one total connection port (201) and one detection lamp (301), so that the number of the detection lamps (301) is consistent with the number of the total connection ports (201);

step two: symmetrically welding at least two slide bars (403) on the bottom of a locking bar (402) in a spot welding mode, fixedly mounting a sensing part of a pressure sensor (109) on the bottom of a locking frame (401), simultaneously attaching an adhesive to the bottom of the locking bar (405), placing the locking bar (405) into the locking frame (401) in a right-side-up mode, after the locking bar (405) completely enters the locking frame (401), pressing down the locking bar (405) to enable the adhesive to be fully contacted with the bottom wall of the locking frame (401), so that the locking bar (405) is fixedly adhered to the bottom wall of the locking frame (401), then penetrating the slide bars (403) through the locking bar (405) and the bottom wall of the locking frame (401), continuously screwing nuts (404), enabling the bottom end of the locking bar (402) to be in contact with the locking bar (405), enabling the locking bar (405) to shrink slightly, and then stopping rotating the nuts (404), thereby mounting the locking bar (402) in the locking frame (401), and then fixing the locking bar (405) on the bottom wall of the locking bar (401) on the locking frame (401), and fixing the side wall of the locking bar (401) on the locking frame (401), and then fixing the locking bar (1) to the side wall, so that the locking piece (4) is assembled;

step three: the locking bulge (503) is aligned with the opening of the locking frame (401) and presses the tapping optical fiber box (5) fixedly connected with the locking frame into the opening, at the same time, the two sides of the blocking piece (504) are in abutting sliding connection with the side wall of the shell (1), when the second guiding part (505) of the locking bulge (503) is in abutting connection with the first guiding part (406) and moves in opposite pressing mode, as the first guiding part (406) and the second guiding part (505) are in arc contact, the first guiding part (406) and the second guiding part (505) enable the locking bulge (503) to enter into the cavity of the locking frame (401) in a labor-saving mode, at the moment, the first guiding part (406) presses the locking spring piece (405) downwards, so that the locking spring piece (405) is highly contracted and presses the pressure sensor (109) simultaneously, the sliding rod (403) is out of the locking frame (401), when the locking bulge (503) is completely entered into the locking frame (401), the locking strip (402) is embedded into the locking groove (506) under the reverse direction of the locking spring piece (405) and forms a joint point of the optical fiber box (5) and the two optical fiber boxes (5) are abutted against the two optical fiber boxes (5) in a connecting mode, the multi-point supporting structure is formed by multi-point clamping and multi-point abutting, when the tapping optical fiber box (5) needs to be disassembled, only the nut (404) needs to be rotated to enable the sliding rod (403) to extend out of the locking frame (401), the clamping strip (402) is separated from the embedding state of the locking bulge (503), and then the tapping optical fiber box (5) is taken out.